ML18054A949

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1989 MIZ-18 Eddy Current Sys Qualification.
ML18054A949
Person / Time
Site: Palisades Entergy icon.png
Issue date: 08/24/1989
From: DECKER J M, WILLMAN S R
CONSUMERS ENERGY CO. (FORMERLY CONSUMERS POWER CO.)
To:
Shared Package
ML18054A948 List:
References
NUDOCS 8909060071
Download: ML18054A949 (327)


Text

{{#Wiki_filter:PALISADES NUCLEAR PLANT 1989 MIZ-18 EDDY CURRENT SYSTEM QUALIFICATION PROJECT NUMBER 248815222024 CONSUMERS POWER COMPANY ENERGY SUPPLY AND FIELD TECHNICAL SERVICES NDT SERVICES DEPARTMENT 135 WEST TRAIL ST. JACKSON, MICHIGAN 49201 ., WRITTEN APPROVED BY: .J_ _ .


, , , PDR ADOCK 05000255 p PDC

  • ::. :. *. ACKNOWLEDGEMENTS The following personnel were involved in the development and implementation of this qualification program. Their involvement-has contributed to the successful completion of this project. 1. Kelly V. Cedarquist; Senior Engineer, Consumers Power Company, Palisades Nuclear Plant, Plant Projects Dept. 2. Blaine L. Curtis, P.E.; Level III Consultant, Allen Nuclear Associates
3. Lori A. Leitch, P.E.; General Engineer, Consumers Power Company, Energy Supply Technical Services, Engineering Evaluations Dept.
  • 4. William R. Pavlichko, PhD; Staff Engineer, Consumers Power Company, Energy Supply Technical Services, Engineering Evaluations Dept. 5. H. W. Voight, Staff Chemist, Consumers Power Company, Energy Supply Technical Services, Chemistry Dept.
  • *:* MIZ-18 QUALIFICATION REPORT Tl.ILE SE.CTlQN BACKGROUND

& OBJECTIVES


*-------------------------------

1.0 APPROACH -------------------------------------------------- 2.0 TECHNICAL DESCRIPTION 3.0 TECHNIQUE CONFIGURATIONS


4.0 TECHNIQUE SPECIFICS


5.0

  • GUIDELINE FOR ANALYSIS TECHNIQUES

6.0 TECHNIQUE 7.0 STATISTICAL ANALYSIS -------------------------------------- 8.0

  • ENERGY SUPPLY TECHNICAL SERVICES NONDESTRUCTIVE TESTING SERVICES DIVISION PALISADES STEAM GENERATORS MIZ-18 TECHNOLOGY UPGRADE 1989

1.0 BACKGROUND

& OBJEQI.I.Y.E.6. Page 1 -1 I . BACKGROUND The following background explains the reasoning behind upgrading from the present Zetec MIZ-12 System to the MIZ-18: A) Based on eddy current profilometry results collected from 1981 to 1985, the progression of magnetite denting is continuing at an average rate of 2.0 mils radially per operating cycle on the most severely dented support plates. The problem occurs, in eddy current inspection, when a previously reported flaw indication is associated with an area of denting. The dent response will tend to obscure the flaw indication progressively as the denting increases. The MIZ-12 system has the ability to suppress dent responses up to approximately a 4.0 mil radial dent. After that point the system begins to lose the ability to suppress the dent up to a level of approximately 8.0 mils radially, at which point the system reaches electronic saturation of the instrumentation .. The MIZ-18 system is a digital system and is not restricted by instrumentation voltage limits, input into the tester, as in the MIZ-12 system. This allows for a much needed increased dynamic range for the signal input. With this increased capability, it is apparent that the MIZ-18 system would be capable of handling signal responses from dents more severe than 8.0 mils of radial compression. The ability to implement the MIZ-18 system at Palisades delayed however to the inability of the available analysis software to suppress both the support and dent response simultaneously. For this reason it was necessary to remain with the existing techniques using the MIZ-12 system. Recently, Zetec Inc. has begun marketing analysis software capable of performing the necessary mixing functions to accomplish the simultaneous support and dent suppression. Based upon this, it is now appropriate to attempt to qualify the MIZ-18 system for detection and 0488-010.18B

        • . *
  • B) C) Page 2 -1 sizing of all of the known defect mechanisms within the Palisades steam generators. Palisades plant is currently in the process of changing the data management system, from the corporate mainframe computer system, to a stand alone P.C. based system titled "ISIS-TUBE".

One of the advantages of this system is that it makes use of the MIZ-18's digital capabilities to record the final analysis results and transfer this information by computer to the data base .. This eliminates many hand generated steps in the data flow process that increase the possibility of error in the recording of results. A reduction in clerical manpower be realized which will help in reducing overall inspection costs. From an A.L.A.R.A. standpoint the MIZ-18 system offers the potential to reduce overall work time spent on the steam generator platforms. The number of cables run to each platform from the station could potentially be reduced by half. The possibility of utilizing a zero-entry positioner with the MIZ-18 is a reality and the probe pushers *could be controlled through the computer. The setup time for the MIZ-18 is less and requires minimal calibrations for the operator, thus reducing the need for personnel on the platforms. For the rotational exams of the sleeves and dented regions, the SM-6 probe pusher is no longer required with the MIZ-18. This, in itself, is a major reduction in man Rem exposure to platform personnel. With the use of the MIZ-18's rotating head probes all of these examinations can be accomplished much the same as the other pull-through techniques. D) During discussions between Consumers Power Company personnel and the Nuclear Regulatory Commission in late 1987, the NRC indicated a need to become more updated in the technology employed in the eddy current inspections of the steam generators at Palisades. Until just recently, as stated in 'A', the mixing technology as needed for Palisades was not available. This limitation now has the potential o'f being eliminated. It appears probable that MI?-18 system could be implemented at E) 'Palisades and satisfy the concerns of the NRC. The ability to support an inspection utilizing the MIZ-12 system is becoming increasingly more difficult due to the lack of available equipment. The standard industry equipment has become the MIZ-18 digital system. 0488-010.lBB

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  • Page 3 -1 Consequently none of the major vendors support the older MIZ-12 system. In addition to this, the testing personnel are no lon-ger current on the operation of the older system and would require refresher training.

II. OBJECTIVES This qualification intends to address all the known types of defect indications that exist within the tubing of the Palisades steam generators, and to demonstrate that the MIZ-18 system meets or exceeds the capabi"lities of .the existing MIZ-12 techniques qurrently used at *Palisades. This will be accomplished by sequentially achieving the following objectives: A) B) C) Determine the appropriate coil configuration(s) for each type of known flaw geometry.

1. Wastage (with and without dents) 2. Intergranular attack (with and without dents) 3. Circumferential cracking (with and without dents) 4. Tube/sleeve defects Determine the appropriate test configuration(s) for each type of known flaw geometry.
1. Wastage (with and without dents) 2. Intergranular attack (with and without dents) 3. Circumferential cracking (with and without dents) 4. Tube/sleeve defects This objective includes a number of tasks that have been addressed .during earlier work with Zetec Inc. of Issaquah, Washington.

In November of 1986 and December of 1987, a study was attempted to determine the abilities of the Zetec enhanced mixing software. This resulted in some improved capabilities in dent suppression over the MIZ-12 system. Since that work was done, Zetec has continued to developed an improved concept in mixing software that could further improve flaw detection and sizing. This will require repeating some of the work done previously but the overall improvements should prove beneficial . Determine the detection and sizing capabilities of all techniques.

1. Bobbin (.540/.560/.580) 0488-010.18B
  • -*-* Multicoil surface riding pancakes (4C4F/8xl)

Motorized rotating pancake coil (MRPC) Page 4 -1 2. 3. 4. Sleeve examination (rotating axial wound tial and crosswound)

5. Other techniques (Narrow Groove Bobbin Coil, Rotating Axial Wound Differential)

D) Determine performance levels of_ selected MIZ-18 techniques compared to accepted MIZ-12 techniques presently approved at Palisades. E) Determine the potential for change in the Palisades data base when the switch is made from the MIZ-12 system to the MIZ-18 system. -o488-010.18B

  • *
  • Page l ..... 2 I. APPROACH This qualification is intended to be inclusive for all of the eddy current test methods to be utilized at Palisades.

The defect sample matrix '(Attachment 2-A) shall include wastage type flaws with depths from 20% to 100% throughwall with denting levels from .000" to .030" of radial compression. IGA samples shall include depths from 20% to 100% throughwall with denting levels from . 000" to . 030" of -radial compression. The simulated circumferential-crack samples will range in depth from 20% to 100% throughwall with denting levels ranging from .000" to .010" of radial compression. The sleeve assembly samples shall contain wastage type defects on the parent tube O.D. and I.D. The sleeve shall contain defects on the O.D. only. The probe designs types for this qualification shall include the following: A) BOBBIN COIL The bobbin coil presently used in the MIZ-12 analog system is a set of 0.540" diameter coils connected in the differential mode. The coils.are separated 2.5" apart (i.e. 540 SFW) and were spaced at this distance to achieve two functions* on the. analog system: 1.) By separating the coils, the eddy current fields generated by the coils did not each other . . Thus the lobe openings normally seen on the support plates and the dents were dramatically reduced. This reduced the X and Y component respectively, in the support and the dent allowing less signal suppression to be required in the mixing process. 2.) The separation of the coils also reduced the influence of a dent when only one coil was affected independent of the other. There are several limitations to this particular probe. These limitations are as follows: The fill factor of the 0.540" diameter coil in the 0.654" diameter I.D. inconel tubing is only 68% (optimum is 85% to 95%). *This creates two problems:

1) Sensitivity to small volume defects is less because of reduced eddy current coupling to the tube 0488-010.18B
  • *
  • Page 2 -2 wall. 2) The signal to noise ratio is decreased because of increased levels of probe motion. The probe motion with the 540 SFW is further increased due to the flexible construction of the probe head. Some preliminary work has been done with the MIZ-18 utilizing several coi1 designs, one being the 540 SFW probe. It has been that the mixing capabilities using the 540 SFW probe were not as good as the close space bobbin coils when utilizing the MIZ-18 digital system. It is also apparent that the fill factor could be increased to improve the detectability level of the probe. Based upon the fact that the body diameter of the 4C4F probe, currently used at Palisades, is 0.560" diameter, it is reasonable that the bobbin coil diameter could be increased to at least 0.560" with minimal number of probe restrictions during in-generator testing due to denting. This would bring the fill factor to 73% which would be an improvement over the 0.540" probe. It would be preferable to increase to a 0.580" diameter coil which would.bring the fill factor to 78%. The 0.580" probe has been used previously at Palisades prior to 1981. A sample of approximately 400 tubes-Was examined in 1988 with a 0.580" probe with no obstructions encountered.

This would indicate that larger diameter probes could be utilized with a minimal amount of obstructions due to denting. To increase the probe diameter greater than 0.580" would not be feasible due to excessive weld rollover at the tubesheet on some tubes, ovalization in the 90° bends and significant levels of magnetite denting . . in many tubes. B) MULTI COIL SURFACE RIDING PANCAKES (4C4F/8Xl) 4C4F The 4C4F probe design is currently used at Palisades for the detection of circumferential cracks and sizing of* intergranular attack (IGA). This design incorporates eight surface riding pancake coils of 0.187" diameter, arranged in two sets of four with each set wired in series. Each set is then connected in a differential mode to the "other set (see figure 2-1) .. This probe is similar in design to an earlier version (the 4 X 4) except the coil sets are spaced 2.5" apart with a flex member between the sets, as opposed to the 1.0" separation on the solid gody 4X4. This allows the 4C4F probe to traverse the 90 bends in the steam generators.

  • ***
  • Page 3 -2 The 4C4F technique was qualified on the MIZ-12 System, in 1983, for the detection of circumferential cracking.

However, during the 1983 inspection, the technique detected flaw type indications that had not been detected.* with the &40 SFW probe. After a series of studies, which included pulling tube sections from the steam generator for metallurgical analysis, it was determined that the flaw responses were areas of IGA. The technique was subsequently qualified for detection and sizing of IGA ranging in depth from 30% to 60% of tube wall.in the presence of up to a 4 mil radial dent. The initial study of this probe design for the MIZ-18 upgrade should include, as a minimum, a range of defect types and configurations to establish equivalent detectability and quantification ability of the 4C4F . 0488-010.18B 8.3 FT. NYLON SHAFT FLEX MEMBER ;:'LEX MEMBER **MAXIMUM COIL O.D. (*+ .12) . *PROSE O.D. TUBE I. D. J FRONT COIL SET(4 EA. PANCAKE) REFERENCED TO . . . REAR COIL SET(4 EA. PANCAKE) FIGURE 2-1 4C4F PROBE

  • ***
  • Page 4 -2 8 x 1 The 8 X 1 probe design utilizes 8 separate surf aces riding pancake coils to a total coverage around the I.D. of the tube wall. These coils are wired in the absolute mode (external reference differential) and function independently.
  • This technique provides good sensitivity to volumetric type defects and circumferential cracking.

The 8 X 1 technique was first evaluated in 1983 using the MIZ-12 System. With the MIZ-12 System the ability to preform multi-frequency mix suppressions, using the 8 X 1 technique was not possible .. For this reason, it was determined that the 8 X 1 could not be utilized at that time. With the MIZ-18 System, the ability to mix frequencies is possible using the 8 X 1 technique. This technique should evaluated again to determine if any additional benefit could be obtained . 0488-010.18B . 83 FT, NYLON SHAFT FLEX MEMBER FLEX MEMBER **MAXIMUM COIL O.D. (*+ ,12) *PROSE O.D. I. 0. J EXTERNAL REFERENCE PANCAKE COILS(8 EA,) FIGURE 2-2 8Xl PROBE

  • C) Page 5 -2 ROTATIONAL PANCAKE COIL (RPC) This technique utilizes a surf ace riding pancake coil that is rotated through the I.D. of the tube while being retracted from the tube. This provides for a helical
  • scan of the tube wall. The technique was initially developed for the detection and sizing of flaws 45% that were no longer.interpretable because of denting. The original technique utilized two EM-3300 single frequency testers. The first unit operated the test pancake coil and the second unit was connected to the locator coil mounted on the probe body. This test system plus the use of the SM-6 rotating probe pusher was the basic set-up used until 1983. At that time the technique remained essentially the same except the EM-3300 units were replaced with the MIZ-12 tester. This technique, although functional, resulted in increased platform time for personnel due to a large number of mechanical failures with the SM-6 probe _pusher units. (See figure 2-3 for probe design) With the introduction of the motorized head probe, in conjunction with the MIZ-18 Remote Acquisition Data Unit (RADU), it is possible to physically perform the rotational exams much the same as any pull-through technique.

This technique was qualified in December of 1987 for the detection and sizing of volumetric wastage and characterization of circumferential cracking indications (

Reference:

Consumers Power Co., NDT Services 1987 report, "Qualification Report for Dent/Defect Examination using the Zetec MIZ-18 MRPC"). This qualification addressed only the depth accuracy of A.S.M.E. type machined defects. No qualification of this technique was performed on other types of.tube degradation at that time. The software allows for dimensional surf ace measurements of the length and width of the defect area. This feature was demonstrated in the qualification, although the accuracy of this function was not established. This feature should be evaluated to determine the accuracy tolerance of this analysis mode. The MRPC technique was utilized during the 1987 inspection to verify and characterize the circumferential crack indications detected with the 4C4F Technique. The MRPC software has the ability to perform several analysis functions. The software allows for normal phase or amplitude analysis techniques and an additional C-Scan 0488-010.lBB

  • *
  • Page 6 -2 presentation enables the user to graphically dispiay the geometry of the defect indication.

The present qualification of this technique should reassess and incorporate as appropriate the findings of the 1987 Qualification Report in addition to further evaluating the types of defects not previously addressed.

    • MAXI MUM COIL 0.0. (*+.120) . ABSOLUTE PANCAKE COIL * #NOMINAL TUBE . LOW FREQUENCY LOCATOR COIL *PROBE 0.0. I. D * ] FIGURE 2-3 ROTATIONAL PANCAKE PROBE D) INSTALLED SLEEVE EXAMINATIONS ROTATIONAL AXIAL WOUND DIFFERENTIAL t t The sleeves at Palisades are hydraulically expanded leak limiting sleeves in 1976 & 1978 by Combustion Engineering Inc. The examination technique was developed to evaluate the tube-sleeve assembly and 3/8 inch each end of the sleeve. The differential coil arrangement provides good phase discrimination between both sleeve and parent tube flaws. This technique was used through 1981 utilizing the EM-3300. In 1983 it was adapted to the MIZ-12 System. 0488-010.18B
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  • Page 7 -2 The technique should be qualified utilizing the MIZ-18 System i.n conjunction with the rotating head motor unit probe. Some prelimina_ry work has been performed with this equipment and the initial findings indicate that the results are comparable to the MIZ-12 method. (See figure 2-4 for probe design) LOCATOR COIL FIGURE 2-4 ROTATIONAL AXIAL WOUND DIFFERENTIAL PROBE 540 -280 Khz SLOW PULL This technique was developed to locate the sleeve position in relation to the parent tube flaw an quantify the parent tube defect. It is intended to determine the integrity of the parent tube and ensure.that the sleeve has not moved within the parent tube such that the parent tube flaw is located between the expanded regions of the sleeve/tube assembly.

The examination is performed using a 0. 540" diameter bobbin probe for detect*ion of the parent tube flaw . This examination could also be adapted to the MIZ-18 with minimal qualification work required. The actual *technique has*not*been altered but the method of collection and recording would be changed.

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  • Page 8 -2 CROSS WOUND This technique has not previously been used in the Palisades Steam Generators.

The method is used to inspect the sleeve transitions within the sleeve/tube assembly. Some consideration should be given to evaluating this method in order to determine its merits and limitations regarding the Palisades sleeves. E. OTHER TECHNIQUES NARROW GROOVE BOBBIN COIL This probe design has been utilized by several utilities for improving the detectability of defects in the presence of conductive deposits on the tube O.D. It appears to be more sensitive to smaller volume pit type defects than the standard.size coil. Consideration will be given to incorporating evaluation of this probe design. into this qualification . ROTATIONAL AXIAL WOUND DIFFERENTIAL This probe has proven successful in the sleeve assembly examinations.at Palisades and may have.the potential for providing additional information in the characterization and sizing of other types of defect areas. The probe has two attributes that may provide additional information:

1) The coils are surface riding, thus the fill factor of .the coils is not a consideration.

This should improve the sensitivity of the coils to smaller volume defects. 2) The orientation of the coils is perpendicular to the circumferential cracking known to exist in the Palisades Steam Generators. This technique used in conjunction with the MRPC Technique may have the potential of improving the overall characterization of circumferential defects at Palisades . 0488-010.lfrB Page 1 of 7

  • MATRIX OF TUBE SAMPLES ATTACHMENT 2-A FOR MIZ-18 WASTAGE QUALIFICATION STD SERIAL DEFECT DENT CIRC AXIAL DEFECT % OF NUMBER LOC . SIZE EXTENT EXTENT DEPTH WALL IN-168 A N/A 0.110 0.110 0.029" 60% B 2 MILS 0.110 0.110 0.029" 60% c 4 MILS 0.110 0.110 0.030" 63% D 6 MILS 0.110 0.110 0.030" 63% E 8 MILS 0.110 0.110 0.030" 63% F 10 MILS 0.110 0.110 0.028" 58% IN-169 A N/A
  • 0.109" 0.109" 0.028" 58% B 2 MILS *0.109" 0.109" 0.029" 60% c 4 MILS 0.109" 0.109" 0.028" 58% D 6 MILS 0.109" .0.109" 0. 029 ;, 60% E 7 MILS 0.109" 0.109" 0.028" 58% F 10 MILS 0.109" 0.109" 0.028" 58% IN-170 A N/A 0 0.109" 0.029" 59%
  • B 2 MILS 0.109" 0.109" 0.029" 59% c 4 MILS 0.109" 0.109" 0.029" 59% D 6 MILS 0.109" 0.109" 0.029" 59% E 8 MILS 0.109" 0.109" 0.029" 59% F 10 MILS 0.109" 0.109" 0.029" 59% IN-178 A N/A 0.050 0.050" 0'.049" 100% B N/A 0.075 0.075" 0.037" 80% c N/A 0.110 0.110" 0.027" 59% D N/A 0.190 0.190" 0.018" 39% E N/A 0.190 0.190" 0. 009*" 20% F N/A 2.355 0.125" 0.009"ID 20% IN-317 A 2 MILS 0.078" 0.078" 0.038" 76% B 4 MILS 0.078" 0.078" 0.040" 80% c 8 MILS 0.078" 0.078" 0.040" 80% D 10 MILS 0.078" 0.078" 0.032" 64% IN-319 A 4 MILS 0.190" 0.190" 0.012" 25% B 5 MILS 0.190" 0.190" 0.014" 29% c 9 MILS 0.190" 0.190" 0.013" 27% D 11 MILS 0.190" 0.190" 0.012" 25% IN-320 A 2 MILS 0.080" . 0.080" 0.040" 83% B 5 MILS 0.080" 0.080" 0.040" .83% c 8 MILS 0.080" 0.080" 0.038 79% D 10 MILS 0.080" 0.080" 0.036" 75%
  • Page 2 of 7
  • IN-369 A 10 MILS 0.078" 0.078" 0.040" 80% B 10 MILS 0.109" 0.109" 0.030" 60% c 10 MILS 0.187" 0.187" 0.020" 40% D 10 MILS 0.187" 0.187" 0.015" 30% E 10 MILS 0.000" 0.000" 0.000" 0% IN-370 A 15 MILS 0.078" 0.078" 0.040" 80% B 15 MILS 0.109" 0.109" 0.030" 60% c 15 MILS 0.187" 0.187" 0.020" 40% D 15 MILS 0.187" 0.187" 0.015" 30%. E 15 MILS 0.000" 0.000" 0.000" 0% IN-371 A 20 MILS 0.078" 0.078" 0.040" 80% B 20 MILS 0.109" 0.109" 0.030" 60% c 20 MILS 0.187" 0.187" 0.020" 40% D 20 MILS 0.187" 0.187" 0.015" 30% E 20 MILS 0.000" 0.000" 0.000" 0% IN-372 A 25 MILS 0.078" 0.078" 0.040" 80% B 25 MILS 0.109" 0.109" 0.030" 60% c 25 MILS 0.187" 0.187" 0.020" 40% D 25 MILS 0.187" 0.187" 0.015" 30% E 25 MILS 0.000" 0.000" 0.000" 0%
  • IN-373 A 30 MILS 0.078" 0.078" 0.040"' 80% B 30 MILS 0.109" 0.109" 60% c 30 MILS 0.187" 0.187" 0.020" 40% D 30 MILS 0.187" 0.187" 0.015" 30% E 30 MILS 0.000" 0.000" 0.000" 0% LARGE VOLUME WASTAGE DEFECTS STD SERIAL DEFECT DENT CIRC AXIAL DEFECT % OF NUMBER LOC SIZE EXTENT *EXTENT DEPTH WALL IN-302 A 2 MILS 0.196" .688" '0.038" 78% B 2 MILS 0.196" .750" 0.030" 61% c 2 MILS 0.196" 1.500" 0.017" 3'5% D 2 MILS 0.196" . 688" 0.010" 20% IN-303 A 2 MILS 0.588" . 813" 0.036" 73% B 2 MILS 0.588" .. 688" 0.028" 57% c 2 MILS 0.588" .688" 0.018" 37% D 2 MILS 0.588" . 813" 0.015" 31% IN-306 A 4 MILS 0.196" .688" 0.040" 82% B 4 MILS 0.196" .750" 0.029" 59% c 4 MILS 0.196" 1. 063" 0.018" 37%
  • D 4 MILS 0.196" .*563" 0.011" 22%

Page 3 of 7 Page 4 of 7

  • IN-211 A N/A 0.375" .006" 0.030" 63% B 10 MILS 0.375" .006" 0.030" 63% c 8 MILS 0.375" .006" 0.030" 63% D 6 MILS 0.375" .006" 0.032" 67% E 4 MILS 0.375" .006" 0.031" 65% F 3 MILS 0.375" .006" 0.034" 71% IN-212 A N/A 0.375" .006" 0.049" 100% B 11 MILS 0.375" .006" 0.049" 100% c 8 MILS 0.375" .006" 0.049" 100% D 6 MILS 0.375" .. 006" 0.049" 100% E 4 MILS 0.375" .006" 0.049" 100% F 2 MILS 0.375" .006" 0.049" 100%
  • MATRIX OF TUBE SAMPLES . Page 5 of 7 FOR MIZ-18 IGA QUALIFICATION
  • STD NUMBER IGA IGA SERIAL OF DENT AXIAL CIRCUMFRENTIAL IGA NUMBER DENTS SIZE DIMENSION DIMENSION DEPT 1 IN -464 .o N/A 0.20" 0.588" 30% 2 IN -465 1 4 Mil 0.20" 0.588" 40% 1 6 Mil 0.20" 0.588" 40% 1 10 Mil 0.20" 0.588" 40% 1 15 Mil 0. 20" 0.588" 40% 1 20 Mil 0.20" 0.588" 40% 3 IN -466 0 N/A 0.20" 0. 58.8 .. 20% 4 IN -467 1 4 Mil 0.20" 0.588" 50% 1 6 Mil 0.20" 0.588 50% 1 10 Mil 0.20" 0.588 50% 1 15 Mil 0.20" 0.588 50% 1 20 Mil 0.20" 0.588 50% 5 IN -468 0 N/A 0.20" 0.588 60% 6 IN -469 0 N/A 0.20" 0.588 80% 7 IN -470 0 N/A 0.20" 0.588 100% 8 IN -471 0 N/A 0.20" o*. 588" 30% 9 IN -472 0 N/A 0.20" 0.588" 20% 10 IN -473 0 N/A 0.20" 0.588" 40%
  • 11 IN -474 0 N/A 0.20" 0.588" 50% 12 IN -475 0 N/A. 0.20" 0.588" 60% 13 IN -476 0 N/A 0.20" 0.588" 80%. 14 IN -477 0 N/A 0.20" 0.588" 100% 15 IN -382 4 2 Mil 0.20" 0.588" 30% 16 IN -383 4 2 Mil 0.20" 0.588" 20% 17 IN -384 4 2 Mil 0.20" 0.588" 40% 18 IN -385 4 2 Mil. 0.20" 0.588" 50% 19 IN -386 4 2 Mil 0.20" 0.588" 60% 20 IN -387 4 *2 Mil 0.20" 0.588" 80% 21 IN -388 4 2 Mil 0.20" 0.588" 100% 22 IN -389 4 4 Mil 0.20" 0.588" 30% 23 IN -390 4 4 Mil 0.20" 0.588" 20% 24 IN -391 4 4 Mil 0.20" 0.588" 40% 25 IN -392 4 4 Mil 0.20" 0.588" 50% 26 IN -393 4 4 Mil 0.20" 0.588" 60% 27 IN -394 4 4 Mil 0.20" 0.588" 80% 28 IN -395 4 4 Mil 0.20" 0.588" 100% 29 IN -396 4 6 Mil* 0.20 0.588" 30% 30 IN -397 4 6 Mil 0.20 0.588" 20% 31 IN -398 4 6 Mil 0.20 0.588" 40% 32 IN -399 4 6 Mil 0.20 0.588" 50% 33 IN -400 4 6 Mil 0.20 0.588" 60%
  • 34 IN -401 4 6 Mil 0.20 0.588" 80% 35 IN -402 4 6 Mil 0.20 0.588" 100% 36 IN -403 4 8 Mil 0.20" 0.588" 30% 37 IN -404 4 8 Mil 0.20" 0.588" 20% 38 IN -405 4 8 Mil 0.20" 0.588" 40% 39 IN -406 4 8 Mil 0.20" 0.588" 50%

Page 6 of 7 ** 40 IN -407 4 8 Mil 0.20" 0.588" 60% I 41 IN -408 4 8 1 Mil 0.20" 0.588" 80% I 42 IN -409 4 8 Mil 0.20" 0.588" 100%. 43 IN -410 4 10 Mil 0.20 0.588" 30% 44 IN -411 4 10 Mil 0.20 0.588" 20% 45 IN -412 4 10 Mil 0.20 0.588" 40% 46 IN -413 4 10 Mil 0.20 0.588" 50% 47 IN -414 4 10 Mil 0.20 0.588" 60% 48 IN -415 4 10 Mil 0.20 0.588" 80% 49 IN -416 4 10 Mil 0.20 0.588" 100% 50 IN -417 4 12 Mil 0.20 0.588" 30% 51 IN -418 4 12 Mil 0.20 0.588" 20% 52 IN -419 4 12 Mil 0.20 0.588" 40% 53 IN -420 4 12 Mil 0.20 0.588" 50% 54 IN -421 4 12 Mil 0.20 0.588" 60% 55 IN -422 4 12 Mil 0.20 0.588" 80% 56 IN -423 4 12 Mil 0.20 0.588" 100% 57 IN -424 4 15 Mil 0.20 0.588" 30% 58 IN -425 4 15 Mil 0.20 0. 588". -20% 59 IN -426 4 15 Mil 0.20 0.588" 40% 60 IN -427 4 15 Mil 0.20 0.588" 50% 61 IN -428 4 15 Mil 0.20 ____ o. 588" 60% 62 IN -429 4 15 Mil 0.20 0.588" 80%

  • 63 IN*-430 4 15 Mil 0.20 0.588" 100% 64 IN -431 4 20 Mil 0.20 0.588" 30% 65 IN -432 4 20 Mil 0.20 0.588" 20% 66 IN -433 4 20 Mil 0.20 0.588" 40% 67 IN -434 4 20 Mil 0.20 0.588" 50% 68 IN -435 . 4 20 Mil 0.20 0.588" 60% 69 IN -436 4 20 Mil 0.20 0.588" 80% 70 IN -437 4 20 Mil 0.20 0.588" 100% 71 IN -438 4 25 Mil 0.20 0.588" 30% 72 IN -439 4 25 Mil 0.20 0.588" 20% 73 IN -440 4 25 Mil 0.20 0.588" 40% 74 IN -441 4 25 Mil 0.20 0.588" 50% 75 IN -442 4 25 Mil 0.20 0.588" 60% 76 IN -443 4 25 Mil
  • 0.20 0.588" 80% 77 IN -444 4 25 Mil 0.20 0.588" 100% 78 IN -445 4 30 Mil 0.20 0.588" 30% 79 IN -446 4 30 Mil 0.20 0.588" 20% 80 IN -447 4 30 Mil 0.20 0.588" 40% 81 IN -448 4 30 Mil 0.20 0.588" 50% 82 IN -449 4 30 Mil 0.20 0.588" 60% 83 IN'-450 4 30 Mil 0.20 0.588" 80% 84 IN -451 4 30 Mil 0.20 0.588" 100% 85 IN -483 0 NA 0. 01 .. 0.588" 40%
  • 0.05" 0.588" 40% 0.10" 0.588" 40% 0.20" 0.588" 40% 0.30" 0.588" 40%

Page 7 of 7 .

  • 86 IN -482 0 NA 0.50" 0.588" 40% 1.00" 0.588" 40% 2.00" 0.588" 40% 0. 20" 0.070" 40% 0.20" 0.130" 40% 87 IN -481 .0 NA 0.20" 0.200" 40%. 0.20" 0.260" 40% 0.20" 0.330" 40% 0.20" 0.460" 40% 0.20" 0.588" 40% 88 IN -480 0 NA 0.20" 0.783" 40% 0.20" 0.979" 40% 0.20" 1.175" 40% 0.20" 1. 763 .. .40% 0.20" 2.355" 40% INITIAL TRIAL SAMPLES -------------------------
  • 89 IN -452 4 2 Mils 0.20" 0.588" 45% 90 IN -453 4 4 Mils 0.20" 0.588" 45% 91 IN -454 4 6 Mils 0.20" 0.588" 45% 92 IN -455 4 8 Mils 0.20" 0.588" 45% 93 IN -456 4 10 Mils 0.20" 0.588" 45% 94 IN -457 4 12 Mils 0.20" 0. 588'! 45% I I 95 IN -458 4 15 Mils 0.20 0.588" 45% '96 IN -459 4 20 .Mils 0.20 0.588" 45% 97 IN -460 4 25 Mils 0.20 0.588" 45% 98 IN -461 4 30 Mils 0.20 0.588" 45% 99 IN -478 0 NA 0.20 0.588" 45% 100 IN -479 0 NA 0.20 0.588" 45% **
  • *
  • I. Page 1 -3 3.0 TECHNICAL DESCRIPTION DATA ACQUISITION The MIZ-18 Data Acquisition System includes the following components (as described in the Zetec Operating Guides): 1-Hewlett-Packard 9000 series 200, Model 236 (HP9836) or Series 300, Model 310, 320, 330, 350 or 360 computer with: 1) External Disc Drive and HPIB cable (if required)
1) Mbyte RAM (Random Access Memory) as a minimum recommended
1) 2-Channel DMA (Direct Memory Access) Controller
1) HP GPIO (General Purpose Input/Output)

Interface (Address 12) 1-Zetec Data Cartridge Recorder HCD-75Z 1) GPIO Interface Cable (50-pin) 1-Zetec MIZ-18 Remote Data Acquisition Unit (RDAU) with: 1) MIZ-18 to HPIB Interface unit 1) HPIB cable 1) 10' Length of MIZ-18 Remote cable 1) Probe Adaptor (specific to the probe being used) The Hewlett-Packard desktop computer is used to control and operate all aspects of data acquisition and recording. This hardware is commercially available from Hewlett-Packard and no modifications are made by Zetec. The Data Cartridge Recorder is based on the 3M, HCD-75 digital cartridge recorder and includes an internal power supply and controller as well as a Zetec-designed interface. The recorder uses 600' PRE-FORMATED. but not necessarily CERTIFIED, data cartridges made by 3M under the brand name Scotch (TM) DC 600HC data cartridge. The data is recorded using 16 tracks, each having 4096 1-Kbyte blocks. This provides for the recording of 67.1 Mbytes of data on one cartridge. The MIZ-18 RDAU provides all primary tester functions including test frequency generation, coil multiplexing, in-phase and quadrature signal digitization and data communication with the Hewlett-Packard computer. This.unit is contained,within a sealed enclosure to prevent inadvertent contamination of the internal power supply an.d other 0488-010.18B

  • *
  • II. Page 2 -3 electronic circuitry.

A single probe adaptor is used to connect various types of *test probes to the remote acquisition unit. The selection of the probe adaptor type depends upon the type of test probe(s) being used. Up to 8 individual test coils, such as an 8-coil pancake array, can be driven. The computer receives data over a differential IEEE-488 bus thorough the MIZ-18 remote cable, which can be extended to 1000 feet. The MIZ-18 to HPIB Interface Unit, located near the computer, provides the necessary interface between the HPIB interface in the computer and the MIZ-18 RDAU. The MIZ-18 RDAU is an addressable device on this bus as are other components. The last. necessary component of the MIZ-18 Acquisition System is the software system. The System Disc is written to disc in machine language (i.e., compiled form). This system has been developed by Zetec under license to Creative Solutions, Inc. using their 32 bit Multi-FORTH(TM) implementation of FORTH. The System Disc will operate on any properly configured

  • Hewlett-Packard Series 200 or Series 300 computer.

The computer hardware should meet the requirement listed above. The MIZ-18 interconnections for a 200 Series computer shall be in accordance with figure 3-1. For a-300 Series computer the interconnections shall be in accordance with figure 3-2. A complete explanation of the system set-up can be obtained from the ZETEC SYSTEM DISC 200/300 SERIES OPERATING GUIDE. DATA ANALYSIS The MIZ-18 Data Analysis System includes the following components: 1-Hewlett-Packard 9000 series 200, Model 236 (HP9836) or Series 300, Model 310, 320, 330, 350 or 360 computer with: 1) External Disc Drive and HPIB cable (if required)

1) Mbyte RAM (Random Access Memory) as a minimum recommended
1) 2-Channel DMA (Direct Memory Access) Controller
1) HP GPIO (General Purpose Input/Output)

Interface (Address 12) 1-Zetec Data Cartridge Recorder HCD-75Z 1) GPIO Interface Cable (50-pin) 1-HP ThinkJet Graphics Printer (or equivalent) 04R8-010.18B

  • *
  • Page 3 -3 1-System Disc Software (Edition 18.6, Revision 5.2) 1-MIZ-18 Data Analysis Supplement Software (Edition 18.6 Revision 6) 1-MIZ-18 MRPC Data Display Analysis Supplement Software (Edition 18.6 Revision 13) 1-Eventide Expressway Memory Buffer The Hewlett-Packard desktop computer is used to control and operate all aspects of data analysis.

The computer controls the data cartridge recorder and transfers data to and from the recorder through the GPIO interface. The MIZ-18 Data Analysis System is the software system used for the evaluation of the eddy current data. The Data Analysis System is written as a binary supplement to the System Disc in machine language. The Analysis System will load and operate only* as an extension of the MIZ-18 System. The software package provides the evaluator with the additional functions necessary to evaluate previouly recorded data.* The software design provides for all functions to be controlled through function-key closures on the computer keyboard . To operate the MIZ-18 Analysis System requires the use of a Security/Enable module. This serialized module system allows the designated Analysis System to load and operate whenever the module is present on a direct HPIB. bus line form the System Processing Unit. This module system allows the user the ability to copy the Analysis System software for back-up purposes. However, only one Analysis System can be operated per module. *

  • The information contained in this section was obtained from the ZETEC, MIZ-18 System Disc, 200/300 Series, Edition 18.6, Revision 5, Operating Guide, Section 3.0 0488-010.18B w I ......
  • PRINTER HPTICNALJ HP. 9836A CCNPUTER IXSl'l.AY lfl8 CAILE
  • MIZ-18 INTERCONNECTICJ'J SQHEMATIC (200 SERIES COMPUTER>

CREAR VIEW> ' AN TO lt<<l CAil..£ Ol'IO CAILE HCO 75Z BRUSH RECOOOER CCPTICNAU IOPllJ REMOTE ORO CAil..£ HPIB INTER= ACE * . tftl CA&.E -0 0 000 z ' I I 0 0 DA/8 llPTOl,t,LJ ..n-11 Toma *O C04f'UTER MIX. MIZ-18 REMOTE T!=STER 1-131 2/l/811

  • w I N
  • IR.ISH IECOODER C<PfllWU . c ) ') IBCIJE 0 : 0 0 MZ-'8 TO lftl CAll..E 2999 DAiii IG'JIHtU MIZ-111 l£MOTE TESTER
  • MIZ-16 INTERCOONEC:TIOO SCHEMATIC 1300 SERIES Ca.tPlJTERJ CREAR VIEW> MCl-ITCR cca..mi R 0 I MllCI KEYIID. a lll'IO OAll.E f'RNTER ICPTOIALI llllO 13ea.I DISK DRVE U127 DISK ORVE U122 EXPANDER 100001 300 Sf'll (00001 300 HCD 75Z _J 1-m Z/a/11
  • lf'll CMl.E 11'11 CMl.E w
  • *
  • I. Page 1 -4 4.0 TECHNIQUE CONEIGURATIONS The following techniques shall be configured as described for these selected examinations:

A. BOBBIN H!JMBEF:: 1 SAMPLES per* SEC: 400 1:1k t*lAt-1E--: 5E.*3-SLF FPEQUEHCY SEQUENCE PROBE CHAtiHEL :::ELECT ;+ COIL COIL COIL COIL COIL COIL COIL COIL 1 2 3 4 5 6 7' 8 1 E.(nj kHz I m I I I I I I

  • l l I I I 2 400 kHz I
  • I I I I I I m I I I I I 3 100 kHz I *I I I I I I Ill I I I I 4 rn kHz I Ill I I I I I I m I I I I I tlUMBEP: SAMPLES per SEC: 400 1:)k t*lAME--:

54(1-SLF FF:EG!UENCY SEOIJEHCE I PF:OBE CHANNEL SELECT l COIL I COIL COIL COIL COIL COIL COIL COIL ;+ FREC!UEt*lC'r' 8 4 5 6 7' 8 1 2 1 5(n3 kHz I *I I I I I I

  • I I I I I 2 4t10 kHz I* I I I I I I rm I I I I I 3 u:i.:1 kHz I* I I -I *I I I
  • I I I I I 4 rn kHz I
  • I I I I I I Im I I I I I !iii t4Ut*1E:EP:

2 SAMPLES per SEC: 400 NAME--: 540-SLF. FREQUHICY SEG!UEt4CE PROBE CHRNMEL SELECT COIL COIL COIL COIL COIL COIL COIL COIL !I FREQIJEMC'r' 5 6 7 8 l 2 3 4 l E.0(1 kHz l*I I I I I I 111 I I I I I 2 4(1(1 kHz *1-1 I I I I I -I I I I I ::: 100 kHz l*I I I I I I Ill I I I I I 4 10 kHz l!!I I El I I I I I I Ei I I [ I I 0488-010.lBB Page 2 -4

  • A . BOBBIN (Continued) r*IUMBEP:
SHMPLES per SEC: 4*;113 ok t*1HME--:

5:30-SF/N(; FF:EG!UEHCY SEG!UEHCE 3ELECT ;+ FREG!UENC\' COIL COIL COIL COIL COIL COIL COIL COIL 1 2 ::: 4 E. 7' 8 1 b[n} kHz I m I I I I I Bi I I I I I Fr 2 40[1 kHz I m I I I I I m I I I I I ::: I 100 kHz , .* I I I I I -I I I I I 4 rn kHz I Im I I I I I Im I I I I I B. 4C4F

  • NUMBER: 4 :::RMF'LE3 per 3EC: 400 ok 4C4F FF:EQIJEHC'l 3H!UEt-ICE CHHNNEL 3ELECT COIL COI'L COIL COIL COIL Cf.ilL COIL COIL ;+ FREG!UENC\' 1 2 3 4 5 E. 7 3 1 E.1)(1 kHz
  • I I I I I I I I 2 400 kHz 111 I I I I I I I I :3 100 kHz
  • I I I I I I I I 4 10 kHz !Ei Ill I I I I I I I I
  • 0488-010.18B Page 3 -4
  • c. 8Xl NUMBER: 5 SRt1PLES per SEC: 400 ok NHME--:

FREG!UENC'r' SEG!IJENCE PROBE CHRNNEL SELECT ;+ FREC!UEMC'l COIL COIL COIL COIL COIL COIL COIL COIL 1 2 ::: 4 6 7 8 1 13 30(1 kHz I m I I I

  • I I I
  • I I I m I I 2 300 kHz I I Bi I I I m I I I m I I I Eli I 3 10(1 kHz I -I I I IE I I I
  • I I I -I I 4 100 kHz [ I m I I I E l I I
  • I I I
  • I D. MRPC
  • NIJMBEP: 5 SRMPLES per SEC: 400 ok t*lRME--:

MRPC FREOUEHCY SEC!UEt-lCE PROBE CHRMNEL SELECT COIL COIL COIL COIL COIL COIL COIL COIL ;+ FREC!IJEMCY

e. 7 8 1 2 3 4 5
  • 1 400 kHz I ., I I I I I I I I I I 2 200 kHz I El -I I I I I I I I I I s HX1 kHz I
  • I I I
  • I I I I I I I 4 10 kHz I m I I
  • I I I I I I I I
  • 0488-010.18B Page 4 -4
  • E . AXIAL ROTATIONAL (Defect & Sleeve) 7 3RMF'LES per SEC: 400 1:1k t*lP.ME--:

R>(IRL F.:OTO FREOUEHC'i

EG!UHlCE PROBE CHRHHEL SELECT ;+ FRE1;iUEHC'r' COIL COIL COIL COIL COIL COIL I COIL COIL 1 2 3 4 5 6 7 8 I I I I I I I I I I I I I k 1 40[1 kHz I I 2 2(1[i kHz I Em I _J I I I I I I I I I :3 100 kHz I e I I I I I I I I I I I 4 10 kHz I ES I I I I I I I I I ml I I F. CROSSWOUND (Sleeve)
  • HUMBER: t: Sf:IMPLES per SEC: 400 FRE1)1JEHCY SEG!UEt-lCE PROBE CHRHHEL SELECT ;+ FREQUEHC'r' COIL COIL COIL COIL COIL COIL COIL COIL 1 2 8 4 5 6 ., . C* 1 kHz
  • I I I *I I Ill I I m I I 2 rn0 kHz *I I .1 E I I
  • I I
  • I I :::

kHz *I I I -I I 1111 I I -I I 4 60(1 kHz

  • I I I
  • I I Ill I I
  • I I
  • 0488-010.18B
  • * ** I. II. Page 1 -5 5.0 TEC.Hlil.Q!lE_aEEQIEI.ra BOBBIN COIL All bobbin coil examinations shall be configured in the same manner. The 600 Khz (ch-1 & 2) shall be utilized to provide the high frequency I.D. suppression channels.

The optimum frequency channel (ch-3 & 4) shall be operated at 400 Khz. A 100 Khz frequency shall be established (ch-5 & 6) to provide for an anti-support mix and also a ch-3,1,5,7 "NEW MIX" that incorporates a 10 Khz frequency (ch-7 & 8) that will also be used as a support locator channel. The data shall be collected with the use of a Zetec 4-D probe pusher. The probe retraction speed shall be between 12" and 14" per second. The retraction speed shall not exceed 14" per second. Each run shall be recorded and the tube identified by its appropriate serial number. The complete sample matrix of tubes shall be examined five times with each individual probe. This process shall be repeated five. times with each probe (5 different probes). The probe serial number shall be recorded on the summary form for each reel of data collected. A sample of the summary form is provided in figure 5.1 4C4F The configuration for the 4C4F examination shall be identical to the Bobbin coil examination with the exception of no absolute channels. The channels will provide the same function for the 4C4F as they*do for the Bobbin examinations. The data shall be collected with the use of a Zetec 4-D probe pusher. For the initial trial samples the data shall be collected at two different speeds. The first set shall be collected at a retraction speed of 6" per second. The second set shall be collected at a retraction speed of between 12" and 14" per second. A determination will then be made to determine the most effective retraction speed for this technique. All subsequent data for this technique will then be collected at that speed. It shall be noted on the summary form at what speed the applicable data was recorded. The complete sample matrix of tubes shall be examined five times with each individual probe. This process shall be repeated five times with each probe (5 different probes). The probe serial number shall be recorded on the summary form for each* reel of data collected. A sample of the. summary form is 0488-010.18B

  • *
  • Page 2 -5 provided in figure 5.1 . III. 8Xl IV. The configuration for the 8Xl technique shall provide a 300 Khz and a 100 Khz channel for each coil. The data shall be collected with the use of a Zetec 4-D probe pusher. For the initial trial samples the data shall. be collected at two different speeds. The first set shall be collected at a retraction speed of 6" per second. The second set shall be collected at a retraction speed of between 12" and 14" per second. A de*termination shall .then be made to determine the most effective retraction speed for this technique.

All subsequent data for this technique will then be collected at this determined speed. It shall be noted on the summary form at what speed the applicable data was recorded. The complete sample matrix of tubes shall be examined five times with eacll*tndividual probe. This process shall be repeated five times with each probe (5 different probes). The probe serial number shall be recorded on the summary form for each reel of dat*a collected. A sample of the summary form is provided in figure 5. 1-. MRPC The configuration for the MRPC shall provide an optimum frequency channel that shall be operated at 400 Khz (ch-1). A 200 Khz channel shall be provided (ch-2) as a supporting or alternate defect detection and sizing channel. A 100 Khz channel shall be provided (ch-3) to establish an anti-support (ch-1,3) mix and to aid defect characterization. Channel (ch-4) will be used for the rotational trigger pulse. A 10 Khz channel (ch-5) shall be used as a low frequency locator channel to determine the location of a defect in relation to a support plate structure. The Zetec 4-D probe pusher shall be used to manipulate the motor-body probe which will rotate the MRPC probe head. The probe shall be rotated at a speed of approximately 220 RPM with a nominal retraction speed of 0.2" per second. The operator shall ensure the coil detects the A.S.M.E. 0.052" diameter 100% defect 4 to 6 times during the scan. The* complete sample matrix of tubes shall examined five times with each individual probe. This process shall be 0488-010.18B

  • * ** Page 3 -5 repeated five with each probe (5 different probes). The probe serial number shall be recorded on the summary form for each reel of data collected.

A sample of the summary form is provided in figure 5.1. V. AXIAL ROTATIONAL VI. The qualification objectives of this technique are twofold. The first objective is to provide assurance that this technique can provide information utilizing the MIZ-18 system that is at least equivalent to the MIZ-12 system. The frequency selections for this examination are the same as those used previously in the analog system. The Zetec 4-D probe pusher shall be used to manipulate the motor-body probe which will rotate an axial wound differential coil probe head, similar in design to the probe head used with the MIZ-12 system. The probe shall be rotated at a speed of approximately 220 RPM with a nominal retraction speed of 0.2" per second. The operator shall ensure the coil detects the A.S.M.E., 0.052" diameter 100% defect 4 to 6 times during the scan . The second objective is to determine the ability of this probe to detect and size areas of IGA. To accomplish this task, the same configuration, rotation and retraction speed as the sleeve examination shall be used. The IGA sample matrix of tubes shall be examined with five different probes with five examinations per probe. The probe serial number shall be recorded on the summary form for each reel of data collected. A sample of the summary form is provided in figure 5.1. CROSSWOUND The crosswound technique is configured to provide information on both the parent tube and tube/sleeve assembly. A 30 Khz frequency is established for use as a locator channel for the transition areas (ch-1 to ch-4). A 100 Khz frequency is used to detect degradation and is a component of selected mixes (ch-5 to ch-8). The 400 Khz frequency is used to detect degradation and is most sensitive to the parent tube (ch-9 t6 ch-12). A 600 Khz frequency is used to detect degradation and is most sensitive to the sleeve (ch-13 to ch-16) . 0488-010.18B

  • *
  • Page 4 -5 The data shall be collected with the use of a Zetec 4-D probe pusher. The probe retraction speed shall be between 12" and 14" per second. The retraction speed shall not exceed 14" per second. Each run shall be recorded and the tube identified by its appropriate number. Each sample tube/sleeve assembly shall be examined five times with each probe. A total of three .different probes shall be used. The purpose of this technique evaluation is to determine if any additional benefit can be obtained by utilizing this technique over the axial wound differential rotational examination currently qualified for the installed sleeves at Palisades . OWNER . PALISADES PLANT MIZ-18 QUAL UNIT NA DATE 01/31/89 S/G NA LEG NA TAPE NO. 21 TO OPER. LVLMIKE KIRK I II OPER. LVL I ASME S/N IN-490 STD S/N IN-493 SIZE 0.7500.D.X0.048 MATERIAL INCONEL 600 PROBE TYPE A-580/SLF CHAN FREQ SPAN ROT COIL 1 600 25 0 M-1 CHAN FREQ 35 SPAN ROT 52 124 COIL 2 600 40 329 5 3 400 52 126 1 4 400 81 95 5 5 100 36 319 1 M-2 M-3 M-4 M-5 3157 3157 3157 3157 13 13 20 10 104 107 105 85 1 6 100 96 280 5 14 7 10 34 170 15 8 10 123 170 5 16 MFG/LENGTH ZETEC /83 FT MIZ-18 ACQUISITION EDITION 18.6 REV5.2 PROBE EXT: MFG ZETEC TYPE 4-PIN LENGTH 50 FT PROBE SERIAL I 0107120 PROBE SET # 4 REQUIRED PULL SPEED 12IN/SC MIZ-18 SERIAL # 129 CALIBRATION DUE DEFECT SET WASTAGE QUALIFICATION ANALYST 11 LEVEL ANALYST #2 LEVEL ANALYST 13 LEVEL ANALYST #4STEVE WELLMAN LEVEL III DATE DATE DATE DATE DATE 6-22-89 _/_/_ _/_/_ _/_/_ 04/03/89 SAMPLE

SUMMARY

FORM (FIGURE 5-1)

  • Page 1 -6 FQR ANALYSIS TECHNIQUES I. PURPOSE II. The purpose of this guideline is to establish uniform practices in setting up the various dent mixes such that desired phase spreads and signal amplitudes can be consistently obtained.

BACKGROUND The "New Mix" function employs a mathematical algorithm which enables the user to emulate the phase relationships of the prime frequency channel selected during "Set Mix". The user can vary certain "New Mix" parameters in order to achieve a "best fit" to the prime channel. As mix parameters are adjusted, improvements in desired propertie9 of the resultant mix can generally be achieved only at the expense of reductions in competing properties. Consequently, the process of setting up a particular _'._'New Mix" is inherently one of. optimization involving the balancing of competing objectives. Specifically, the properties of the resultant mix which are to be optimized include overall phase spread, phase spread between ASME flaw depths, ASME flaw signal amplitudes, and dent residual amplitude. The.phase vs. depth relationship of dent mixes cannot, in general, be accurately represented by the curve :f"itting routine of the MIZ-18 analysis software .. Therefore, once an "optional" mix is established the resultant phase vs. depth relationship must be represented through the use of alternative curve fitting techniques. The characteristic curve of a dent mix can be represented by a 3rd order polynomial. Accordingly, a cubic regression curve for the routine has been selected, with the result that a correlation coefficient' at or near unity for all dent mixes, is obtained, when the phase vs. depth values of the 4 ASME flaws between 80% and 20% are used as data points. If, in setting up the various dent mixes, the phase vs. depth relationships for the 80% through 20% ASME flaws are maintained, in accordance with pre-established values, then the curve fit corresponding to those values will apply to each particular mix. In summary, when using "New Mix" an optional dent mix can be established for each.dent magnitude. The phase vs. depth relationship for each mix can be described by a cubic regression for to the 80%, 60%, 40% and 20% ASME flaws. If pre-established phase vs. ASME flaw depth relationships are maintained, each time a mix is setup for a particular dent magnitude, then the curve corresponding to these phases vs.depth relationships will apply. 0389-010.18B

  • Page 2 -6 III. METHOD A. BOBBIN & 4C4F 1. Four radial dent sizes are used in the MIZ-18 qualification; 4 mil, 8 mil, 11 mil and 15 mil. The mixing process for each dent size is given below. NOTE: Due to lift-off effects of the larger dent sizes, the 4c4F mixes are limited to the support mix and the 4 mil dent mix only. A two frequency mix is used for the support plate mix. The frequencies, channels and order of selection for this mix are as follows: 400 KHZ: 100 KHZ: CH 3 CH 5 Mix configuration:

3-5 A four frequency mix is used for each of the dent mixes. The frequencies, channels a-nd--order of selection for each mix are as follows: 400 KHz: CH 3 600 KHz: CH 1 100 KHz: CH 5 10 KHz: CH 7 Mix configuration: 3-1-5-7 The following are suggested mix settings to establish the necessary phase spreads for the individual mixes. Some variation in each setup is permissible provided a signal to noise ratio maintains a better than 1 to 1 is maintained while preserving acceptable phase discrimination between defect responses. All bobbin, 4C4F, MRPC and axial rotational examinations shall use the ASME defect standard to establish the required evaluation curves. The 8Xl

  • examination shall use the circumferential groove standard to establish the required evaluation curves. The phase analysis curves shall established for the 8Xl, MRPC and Axial rotational techniques using the curve fit function available in the MIZ-18 DDA-4 analysis software.

SUPPORT MIX The support suppression shall be accomplished in the normal mix mode. After sup'pressing the support plate, the dent

  • * * .Page 3 -6 response shall be rotated horizontal, with the initial flaw response down. The mix curve shall be established using the DDA-4 and the 100%, 60%, and 20% ASME defect responses as set points. 2. SUPPORT/DENT MIX 3. The combined support/dent mixes shall be accomplished with the use of the "NEW-MIX" function.

After calculating the mix coefficients, the defect response of the ASME 81% defect shall* be rotated to 40 degrees with the initial response down. The curve for each mix shall be selected from the attached curve selections. The most appropriate curve should be selected by comparing actual known ASME defect depths with the published phase vs. depth table. SUGGESTED MIXING SEQUENCES .4_Mi1 Dent (Bobbin & 4c4F) 1-Q@ .ell. #Saves 3 1 1 1 #Saves Locations (Nominal) 54-60 18-20 18-20 18-20 Amplitude: 2.8 3.7 3.0 2.3 (Typical) Dent Residual: 0.4 v !Sf LMil #Suppressions 1 #Suppressed Locations (Nominal) Phase: See .6-MiLD.en:t

  1. Saves #Save Locations 50 4 mil Dent curve. (Bobbin & OPTIONAL 1 1 50 with 2.Q.% 3 60-66 2.4 4c4F) 6 lQ.% 1 22-24 *5.3 1 (Nominal) 102-120 *18-20 54-60 18-20 1207130 22-24
  • ***
  • Amplitude:

2.4 (Typical) 2.8 Dent Residual: 1.1 v Suppressions:

  1. Locations l'.S.E. 1 50-54 Page 4 -6 2.3 1.9 2.2 5.0 LMil LMil 2 2 180-200 180-200 Phase: See 8 Mil Dent Curve. (Bobbin) #Saves #Save .8ll 1 8 1 Locations 160-170 18-20 54-60 18-20 160-170 20-24 (Nominal)

Amplitude

1. 2 (Typical)

Dent Residual: (Typic.al) .Suppressions

  1. Suppressed Locations
1. 6 1.0 v Iaf 1 50-54 1. 3 1.1 1. 4 3.0 4 Mil .6.._Mil ll Mil 1 1 2 120-130 120-130 Phase: See 11 Mil Dent Curve 15 (Bobbin) .8ll #Saves 9 1 #Save Locations 180 20 (Nominal)

Amplitude 1.2 1.5 (Typical) Dent Residual * * #Suppressions: 0389-010.lBB 0.8 v Taf 1 120 20 180-198 22 1. 6 1.5 1.8 3.8 .LMil LMil l.LMil lli_Mil 1 1 1 3

  • *
  • Page 5 -6 #Suppressed Location's (Nominal) 54 70-80 70-80 70-80 210-240 Phase: See 15 Mil Dent curve NOTE: Use attached "New Mix/Data Analysis Curve Parametric Study Form" to keep track of Saves and Suppressions.
4. PROCEDURE (BOBBIN & 4C4F) a. Set Mix 1: 400-100 Standard Support Mix Rotation:

4 Mil dent horizontal, up and to left. Set curve b. Set Mix 2: 4 mil dent per Rotation: 81% at 40 c. Set Mix 3: 8 mil dent per method Rotation: 81% at 40° d . Set Mix 4: 11 mil dent per method Rotation: 81% at 40° e. Set Mix 5: 15 mil dent per method Rotation: 81% at 40° f. *Setup CH 3, 400 Khz (1) Rotation: 100% at 40° (2) Set volts: 5 v p-p on 20% (3) Save/Store to all channels (4) Set curve (5) Store variables

g. Add Data (1) ASME 100/81/60/42/20/10/TSP Using CH-3 (400 KHz) (2) 15m/llm/8m/4m dents using Mix 1 h. Final Report 0389-010.lBB For each of the dent mixes, Mix 2 -Mix 5, measure and report the following data: (1) Dent residual :Q.=.12 max. volts.record as "RES" in% column (2) Dump Graphics (3) 100%/81/60/42/20/10 flaws (a) Use appropriate Mix curve to evaluate depth. (b) Dump Graphics
  • *
  • Page 6 -6 B. (8X1) The 8X1 technique is functionally 8 separate pancake coils connected in the absolute mode. The circumferential groove calibration standard shall be used for establishing a phase analysis curve for the 300 Khz channels (CH-1 through CH-8). The 300 Khz channels shall be used for flaw sizing utilizing the channel with the greatest amplitude response for phase measurement.

A support mix shall be established, combining the 300/100 Khz channels. This mix shall only be used when the primary 300 Khz is not interpretable.

1. PROCEDURE (BXl) c. a. Setup CH-1 through CH-8 b. (1) Rotation:

Set probe motion horizontal (2) Set Volts: 5 v p-p on 100% (3) Save/Store to all channels (4) Set degree curve on CH-1 through CH-8 (5) Store variables Setup CH-9 through CH-16 (1) Rotation: Set probe motion horizontal (2) Set Volts: 5 v p-p on 100% (3) Save/Store to all channels (4) {OPTIONAL} Set degree curve on CH-9 through CH-16 This shall. be use for confirmation only. (5) Store variables

c. Add Data (1) 100%/80/60/40/20 using CH-1 (300 Khz) d. Final Report For.the 300 Khz channel (CH-1 through CH-8) which registers the maximum response, measure and. report the following data: (1) 100%/80/60/40/20 circumferential flaws on calibration standard.

(2) Report depth of each flaw (3) On the final report, indicate the number of coils that responded to the defect. This number should be recorded in the extent area of the final report. (4) Dump graphics on reportable indications. {MRPC) The MRPC technique utilizes the ASME calibration standard as the setup standard. A nqrmal support mix shall be established using a 400/100 Khz mix. The area sizing, using the clip plot function on the DDA-4, shall be calibrated using the 0.052" diameter through wall.hole. 0389-010.lBB

  • ... Page 7 _ 6 1 .
  • PROCEDURE D. 1. a. Setup CH-1 through CH-3 (1) Rotation:

Set probe motion horizontal (2) Set Volts: 5 v p-p on the greatest amplitude signal response from the 100% defect. (3) Save/Store all channels * (4) Establish a degree curve for CH-1 and CH-2 using the p-p measurement. (5) Store variables

b. Add Data (1) ASME 100%i81/60/42/20/10 using CH-1 (400 Khz) c. Final Report (1) ASME 100%/81/60/42/20/10 using CH-1 (400 Khz) (2) Dump Graphics ASME (3) .Defects-report depth and in extent column report axial and circumferential dimensions. (Example:

125x455) (AXIAL ROTATIONAL) The Axial Rotational technique utilizes the ASME calibrations standard as the setup standard. A support plate mix shall be established using the 400/100 Khz channels. "PROCEDURE

a. Setup CH-1 through CH-4 ( 1 ). Rotation:

Set probe motion .horizontal (2) Set volts: 5 v p-p on 20% (3) Save/Store to all channels (4) Set Curve for CH-1 400 Khz (5) {OPTIONAL} Set Curve for CH-2 & 3 (200 & 100 Khz) (6) Store variables

b. Add Data (1) ASME 100%/81/60/42/20/10 using CH-1 (400 Khz) c. Final Report . (1) ASME 100%/81/60/42/20/10 using CH-1 (400 Khz) (2) Dump Graphics (3) Reportable indications (4) Dump Graphics 0389-010.lBB
  • **
  • Page 8 -6 IV. REPORTING CRITERIA A. Final Report Header UNT MIZ-18 Qualification ANL J. Doe Level II A DAT Mo/Day/Year REL Reel # DSK (Reel#) .1 (. 2, . 3, etc.) DEF Wastage/Circumferential/IGA PRB 580SLF/MRPC/Axial, etc. B. End a disk with "END" in % Column. C. Flaw Evaluations (1) 1 entry per area, in sequence e.g. Area A, Area B, Area C, etc. (2) Quantifiable Indications Manually enter values if determined from mixes 2-5; otherwise use "Set curve" . (3) Non-quantifiable defects. if flaw is present but non-quantifiable to ambiguous phase, record as. "NQD." NOTE: A best effort be made to quantify. (Use NQD a last resort) (4) No Flaw Indications Enter as "ND" at appropriate location.

(5) Flaw Measurement In general, use Max. Rate function (6) Graphics 0389-010.lBB Dump Graphics for each f.l.aH reported: Upper Graphics: Calling Channel Lower Graphics: Mix #1 Curve 1 Page 1 of 27

  • 111l0 PALISADES:

4 M!L DENT MlX -580 BOBB!N 9121 80 70 60 58 40 30 -I '* ., I * ... I r--, __ I -,_ ....................... '--..'--.. I -'--....._ "'---....._'" I --... , / ' I ., '\ 20 l0 I ', ' I \ ' / \ I '\ 0 0 10 20 30 40 5*3 60 70 00 90 100 110 120 l30 140 150 160 Y. THROUGH WALL VS. PHASE ANGLE (DEGREES) I * !ll % !ll % !ll % !ll % !ll % !ll % !ll % fl) % 0 0 20 50 40 81 60 64 80 54 100 46 120 34 140 13 1 3 21 53 41 80 61 64 81 54 101 45 121 33 141 12 2 5 22 55 42 79 62 63 82 54 102 45 122 32 142 10 3 8 23 58 43 78 63 63 83 53 103 44 123 31 143 9 4 10 24 60 44 77 64 62 84 53 104 44 124 30 144 8 5 13 25 63 45 76 65 62 85 52 105 43 125 30 145 6 6 15 26 65 46 75 66 61 86 52 106 43 126 29 146 5 7 18 27 68 47 74 67 60 87 51 107 42 127 28 147 3 8 20 28 70 48 73 68 60 88 51 108 42 128 27 148 1 9 23 29 72 49 72 69 59 89 51 109 41 129 26 149 0 10 25 30 75 50 72 70 59 90 50 110 41 130 25 11 28 31 78 51 71 71 58 91 50 111 40 131 24 12 30 32 80 52 70 72 58 92 49 112 39 132 23 13 33 33 82 53 69 73 57 93 49 113 39 133 22 14 35 34 82 54 68 74 57 94 49 114 38 134 20 15 38 35 82 55 68 75 57 95 48 115 37 135 19 16 40 36 82 56 67 76 56 96 48 116 37 '136 18 17 42 37 82 57 66 77 56 97 47 117 36 137 17 18 45 38 82 58 66 78 55 98 47 118 35 138 16 19 48 39 82 59 65 79 55 99 46 119 34 139 14

  • Curve 2 Page 2 of 27
  • PALISADES: L 5 M!L DENT MlX -580 BOBBlN ST 2 100 912:1 I
  • I Blcl 70 I \ I \ .,\ ! ! I .. ! 60 50 *---.. i._ __ I ---....... **. *, ; ** ... 40 30 20 10 0 I ! I '\ I 1 i \ i I I \ I I ... I I I I *, I I *, I ! i I* ; I I ! I \ I I I I \ 8 18 20 30 40 58 70 :30 90
  • 100 110 120 L80 140 150 !60
  • THF:OUG,H 1-IALL '*/S. PHASE ANGLE iDEGRE:ES)

I r/J %* r/J " i/J " r/J % r/J % r/J *4 1. ,, 0

  • 20 .. 40 81 60 62 80 57 100 26 1 .. 21 .. 41 79 61 62 81 56 101 23 2
  • 22
  • 42 ..,., 62 61 82 55 102 20 'I 3 .. .,-1-6 .
  • 43 76 63 61 83 55 103 17 4
  • 24
  • 44 74 64 61 84 54 104 14 5
  • 25 .. 45 73 65 61 85 53 105 10 6.* 26 .. 46 71 66 61 86 52 106 6 7 .. 27 82 47 70 67 60 87 51 107 .., '-8
  • 28 82 48 69 68 60 88 50 108 0 9 .. 29 82 49 68 69 60 89 48 10 .. 30 82 50 67 70 60 90 47 11
  • 31 82 51 66 71 60 91 46 12
  • 32 82 52 66 72 60 92 44 13
  • 33 82 53 65 73 59 93 42 14
  • 34 Bi 54 '64 74 59 94 40 15 .. 3S 82 SS 64 7S 59 95 38 16 .. 36 82 56 63 76 SB 96 36 17
  • 37 82 57 63 77 SB 97 34 1 B
  • 38 82 58 62 78 SB 98 32 1 9
  • 39 82 59 62 79 57 99 29 **

Curve 3 .Page 3 of 27

  • 100 PALISADES:

8 M!L DENT MIX -560 BOBBIN 9121 81<! -I \ ' 70 60 50 j '\.. I '"-r---.... I *-*---..._ '--.. 40 30 20 10 I -...... I ", "" I \, I \ \ I I\ I \ 0 0 1B 20 30 40 50 60 70 80 90 100 110 120 L80 140 150 160 % THROUGH WALL 1/5. PHASE ANGLE CDEGREES) I ** 0 % 0 % 0 Yo 0 % 0 Yo 0 7. 0 7. 0 r. 0 0 20 S0 40 81 60 .63 80 SS 100 47 120 32 140 1 1 3 21 S3 41 80 61 63 81 S4 101 46 121 30. 141 0 2 s 22 SS 42 79 62 62 82 S4 102 46 122 29 3 8 23 S8 43 77 63 52 83 S4 103 4S 123 28 4 10. 24 60 44 76 64 61 84 53 104 45 124 27 s 13 2S 63 45 7S 6S 60 85 53 105 44 125 26 6 15 25 65 46 74 66 60 86 53 106 43 126 24 7 18 27 68 47 73 67 60 87 S2 107 43 127 23 8 20 28 70 48 72 68 59 88 52 108 42 128 22 9 23 29 73 49 71 69 59 89 51 109 41 129 20 10 2S 30 75 50 70 70 58 90 51 110 41 130 19 11 28 31 78 51 70 71 58 91 51 111 40 131 17 12 30 32 80 52 69 72 57 92 50 112 39 132 15 13 33 33 82 S3 68 73 57 93 50 113 38 133 14 14 35 34 82 54 67 74 57 94 50 114 37 134 12 15 38 35 82 55 66 75 56 95 49 115 37 135 10 16 40 36 82 56 66 76 56 96 49 116 36 136 8 17 43 37 82 57 65 77 56 97 48 117 35 137 7 18 45 38 82 58 64 78 55 . 98 48 118 34 138 5 19 48 39 82 59 64 *79 55 99 47 119 33 139 3

  • Curve 4 Page 4 of 27
  • PALJSADES:

11 MtL DENT MlX -580 BOBBlN .. me 9121 80 70 60 50 40 30 20 10 -I \""-. I I "--., / ['.._ . I '-..... I I .... \ I \ I I \ 0 e 10 20 30 40 s0 s0 70 a0 se 100 110 120 1a0 1<10 150 160 % THROUGH WALL VS. PHASE ANGLE !DEGREES) I Cl) 7. 0 % 0 i. 0 % 0 % 0 % 0 % 0 % -----0 0 20 50 40 81 60 63 80 54 100 46 120 31 140 3 I 3 21 53 41 80 61 63 81 54 .101 45 121 30 141 1 2 5 22 55 42 79 62 6-2 82 53 102 45 122 29 142 0 3 8 23 58 43 78 63 62 83 53 103 44 123 28 4 10 24 60 44 76 64 61 84 53 104 43 124 27 5 13 25 63 45 75 65 61 85 52 -105 43 125 26 6 15 26 65 46 74 66 60 86 52 106 42 126 24 7 18 27 68 47 73 67 60 87 51 107 42 127 23 8 20 28 70 48 73 68 59 88 51 108 41 128 22 9 23 29 73 49 72 69 59 89 51 109 40 129 21 10 25 30 75 50 71 70 58 90 50 110 40 130 19 11 28 31 78 51 70 71 58 91 50 111 39 131 18 12 30 -32 80 52 69 72 57 92 49 112 38 132 16 13 33 33 82 53 68 73 57 93 49 113 37 133 15 14 35 34 82 54 67 74 56 94 49 114 37 134 13 15 38 35 82 55 67 75 56 95 48 115 36 135 12 16 40 36 82 56 66 76 56 96 48 116 35 136 10 17 43 37 82 57 65 77 55 97 47 117_ 34 137 8 18 45 38 82 58 65 78 55 98 47 118 33 138 7 19 48 39 82 59 64 79 54 99 46 119 32 139 5

  • Curve 5 Page 5 of 27
  • PALISADES:

LS MIL DENT MIX -580 BOBBIN 100 9t!I 8'11 70 60 50 -I \\ I I '*"'-*,, I ,, ""' 40 30 20 1e I I \, I I\ I I \ I\ I \ ****-.. El 0 10 20 30 40 50 60 70 80 90 11110 110 l20 l3B 140 150 160 % THROUGH lllAL.L VS. PHASE ANGLE CIIEGREESl I *** 0 % l1l % l1l % 0 % 0 % 0 % 0 % 0 % 0 0 20 50 40 81 60 61 80 48 100 30 I .3 21 53 41 80 61 60 81 47 101 29 2 5 22 55 42 78 62 59 82 47 102 27 3 8 23 58 43 77 63 59 83 46 103 26 4 10 24 60 44 76 64 58 84 45 104 25 5 13 25 63 .45 75 65 57 85 44 105 23 .6 15 26 65 46 73 66 57 86 44 106 22 7 18 27 68 47 72 67 56 87 43 107 20 8 20 28 70 48 71 68 55 88 42 108 18 9 23 29 73 49 70 69 55 89 41 109 17 10 25 30 75 50 69 70 54 90 40 110 15 11 28 31 78 51 68 71 54 91 39 111 13 12 30 32 80 52 67 72 53 92 39 112 11 13 33 33 82 53 66 73 52 93 38 113 9 14 35 34 82 54 65 74 52 94 37 114 7 15 38 35 82 55 65 75 51 95 36 115 5 16 40 36 82 56 64 76 50 96 35 116 3 17 43 37 82 57 63 77 50 97 33 117* 1 18 45 38 82 58 62 78 49 98 32 118 0 19 48 39 82 59 61 79 49 99 31 ,. Curve 6 Page 6 of 27

  • PALISADES:

L 5 M!L DENT MlX -580 BOBB!N ST :2 u:l!Zl 912l 81] 70 I \. ** . I . , **. I .. -.. **-.... 60 58 48 30 20 *-... I ** ..... " *-. I ., ... I I ... \ ... I \, I \ i \. I I \ i I I " I \ " '* 10 \ '* El --\

  • e 10 20 30 40 se E:e 70 ae se 100 110 120 L'.313 140 150 1e0 1' THROUGH WALL VS. PHASE ANGLE !DEGREES)

I l/J % r/J % r/J % r/J % 0 % 0 % ------------------0

  • 20
  • 40 79 60 65 80 54 100 25 1
  • 21
  • 41 78 61 64 81 53 101 23 z
  • 22
  • 42 77 62 64 82 52 102 20 3
  • 23
  • 43 76 63 64 83 51 103 18 4
  • 24
  • 44 75 64 63 84 50 104 15 5
  • 25
  • 45 74 65 63 85 49 105 12 6
  • 26
  • 46 73 66 62 86 48 106 9 7
  • 27 82 47 72 67 62 87 47 107 6 8
  • 28 82 48 72 68 61 88 46 108 3 9
  • 29 82 49 71 69 61 89 44 109 0 10
  • 30 82 50 70 70 60 90 43 11
  • 31 82 51 70 71 60 91 42 12
  • 32 82 52 69 72 59 92 40 13
  • 33 82 53 68 73 59 93 38 14
  • 34 82 54 68 74 58 94 37 15
  • 35 82 55 67 75 58 95 35 16
  • 36 82 56 67 76 57 96 33 17
  • 37 82 57 66 77 56 97 31 18
  • 38 82 58 66 78 56 98 29 19
  • 39 82 59 65 79 55 99 27
  • Curve 7 Page 7 of 27
  • PALlSADE:3: l 5 MIL DENT MlX -580 BOBB!N ST 2 100 9121 I I I 80 I I [' **-.... -.... _ . 70 -----. I ---..... ---I *--........ 60 ' -, 50 I \\'., 40 38 20 10 I \\\ ! ! I I I I ! I I I " " I i \ I i ! I I \ I I I I i \ I . i \ I \ I I \ I 0 0 40 50 E:0 70 130 B0 100 l l0 120 l3D 148 150 160
  • THF.:OUGH VE:.* PHASE ANGLE t'.DEGREES)

I (1) % (1) % fl) ., (1) % (1) ., (1) '* 1. 0

  • 20
  • 40 79 60 69 80 60 *100 35 1
  • 21
  • 41 78 61 68 81 59 101 33 2
  • 22
  • 42 78 62 68 82 58 102 31 3
  • 23
  • 43 77 63 68 83 57 103 29 4
  • 24 82 44 76 64 67 84 57 104 26 s
  • 25 82 45 75 65 67 85 56 105 24 6
  • 26 82 46 75 66 67 86 SS 106 22 7
  • 27 82 47 74 67 66 87 54 107 19 . 8
  • 28 82 48 74 68 66 88 S3 108 16 9
  • 29 82 49 73 69 65 89 SI 109 14 10
  • 30 82 50 73 70 65 90 50 110 11 11
  • 31 82 51 72 71 6S 91 49 111 8 12
  • 32 82 52 72 72 64 92 48 112 5 13
  • 33 82 S3 71 73 64 93 46 113 2 14
  • 34 82 54 71 74 63 94 45 114 0 lS
  • 3S 82 5S 70 75 63 95 43 16
  • 36 82 56 70 76 62 96 42 17
  • 37 82 57 70 77 62 97 40 18
  • 38 82 58 69 n 61 98 38 19
  • 39 82 59 69 79 60 99 37 *
  • :. * ------------PALISADES: l 1 HIL DENT MI){ -580 BOBBIN sr 4 100 9121 80 *. -.

70 **-. .. 't 60 50 40 I . ,---,-........ 30 20 LJ I l *** .. \\ ......... _ \\ I ie I l l I l I ' I I I I I I I\, I I . I l \ 0 10 20 30 40 5*3 80 70 00 90 100 110 120 140 150 1s*0 THF.:OU(iH WALL VS. F'HASE ANGLE (DEGREES) I 0 % 0 ., /, 0 % 0 % 0 % 0 % 0 % --0

  • 20
  • 40 81" 60 65 80 52 .* 100 36 120 14 1
  • 21
  • 41 80 61 64 81 51 101 35 121 13 2
  • 22
  • 42 79 62 64 82 50 102 35 122 11 3
  • 23
  • 43 78 63 63 83 50 103 34 123 10 4
  • 24
  • 44 77 64 62 84 49 104 33 124 8 5
  • 25
  • 45 76 65 62. 85 48 105 32 125 7 6
  • 26
  • 46 75 66 61 86 48 106 31 126 5 7
  • 27
  • 47 75 67 60 87 47 107 30 127 4 B
  • 28
  • 48 74 68 60 88 46 108 29 128 2 9
  • 29
  • 49 73 69 59 89 45 10927 129 0 10
  • 30
  • 50 72 70 58 90 45 110 26 11
  • 31
  • 51 71 71 58 91 44 111 25 12
  • 32
  • 52 71 72 57 92 43 112 24 13
  • 33 82 53 70 73 56 93 42 113 23* 14
  • 34 82 54 69 74 56 94 42 114 22 15
  • 35 82 55 68 75 55 95 41 115 21 16
  • 36 82 56 68 76 54 96 40 116 19 17
  • 37 82 . 57 67 77 54 97 39 117 18 18
  • 38 82 58 66 78 53 98 38. 118 17 19
  • 39 82 59 66 79 52 99 37. 119 15 ------Curve 8 Page 8 of 27 Curve 9 Page 9 of 21 PAL!SAOE:3:

8 MrL DENI M!X -580 BOBB!N ST 4

  • me 90 80 713 l I I I I I I I I -I *** * .. I I *** **. I I '* * .. ! .. 80 1** ........ 50 I ., **,, I I i .. '*. ; *. 48 '"'-, I '-* *-. i ... ' ., I ..... 30 20 i6 *, I I i ! \'**. I I I i I ; .. \ I ! I I " I I I I \\ ... I I I I i i \ I \. 10 20 30 40 58 .;13 70 80 90 100 1 l0 l20 LS0 140 150 1'>0 Y:: THROUGH WALL VS. PHASE ANGLE £DEGREES)

I * (1) % (1) % (1) i. (1) % (1) % (1) i. (1) % 0

  • 20
  • 40 80 60 65 80 54 100 41 120 21 1
  • 21
  • 41 79 61 65 81 53 101 40 121 20 2
  • 22 .. 42 78 62 64 82 52 102 39 1 ., ., ... ... 19 3
  • 23 * . 43 78 63 63 83 52 103 38 123 18 4
  • 24
  • 44 77 64 63 84 51 104 37 124 16 5
  • 25
  • 45 76 65 62 85 51 105 36 125 .15 6
  • 26
  • 46 7S 66 62 86 50 106 36 126 14 7
  • 27
  • 47 74 67 61 87 49 107 35 127 12 8
  • 28 + 48 74 68 60 88 49 108 34 128 11 9
  • 29
  • 49 73 69 60 89 48 109 33 129 9 10
  • 30 + 50 72 70 59 90 48 110 32 130 8 11
  • 31
  • 51 71 71 59 91 47 111 31 131 6 12 + 32
  • 52 71 72 58 92 46 112 30 132 5 13
  • 33
  • 53 70 73 58 93 46 113 29 133 3 14
  • 34 82 54 69 74 57 94 45 114 28 134 2 15
  • 35 82 55 68 75 56 95 44 115 27 135 0 16
  • 36 82 56 68 76 56 96 43 116 26 17
  • 37 82 57 67 77 55 97 43 117 25 18
  • 38 82 58 66 78 55 98 42 118 24 19
  • 39 82 59 66 79 54 99 41 119 23
  • Curve 10 Page 10 of 27
  • PAL!SADES:

8 M[L DENT MIX -588 BOBBIN ST 2 rn0 Siil 80 ...... \ *.,. 713 *****-******** ... se "*-. .... --..... 50 *-....... ---, 40 I -.... 3E:* ! \. I ... ., ' \. 28 **-\ 10 \ 0 '\\ 0 10 20 30 48 58 60 70 130 98 108 1113 120 130 140 150 160 ** Y. THF:OUGH WALL l/S. PHASE ANGLE !DEGREES) I fl) % fl) % fl) 0/ fl) % fl) % fl) 0/ fl) % ,, ;, 0

  • 20
  • 40 82 60 63 80 52 100 40 120 24 1
  • 21 ... 41 80 61 63 ' 81 51 101 40 121 .,-.:. ;) 2
  • 22
  • 42 79 62 62 82 51 102 39 ,.,., .... 21 3 ... .,-.:. :i
  • 43 78 63 61 83 50 103 38 123 20 4 24
  • 44 77 64 61 84 49 104 38 124 1 5
  • 25 ... 45 76 65 60 85 49 105 37 125 18 6
  • 26
  • 46 75 66 59 86 48 106 36 126 17 7
  • 27 82 47 74 67 59 87 48 107 35 127 16 8
  • 28 82 48 73 68 58 88 47 108 35 128 14 9
  • 29 82 49 72 69 58 89 47 109 34 129 13 10 .. 30 82 50 71 70 57 S0 46 110 33 130 12 11
  • 31 82 51 70 71 57 91 46 111 32 131 10 12
  • 32 82 52 70 72 56 92 45 112 31 132 9 13
  • 33 82 53 69 73 55 93 45 113 30 133 7 14
  • 34 82 54 68 74 55 94 44 114 30 134 6 15
  • 35 82 55 67 75 54 95 43 115 29 135 4 16
  • 36 82 56 66 76 54 96 43 116 28 136 3 17
  • 37 82 57 66 77 53 97 42 117 27 137 1 18
  • 38 82 58 65 78 53 98 42 118 26 138 0 19
  • 39 82 59 64 79 52 99 41 119 25 *
  • * ** 100 I 90 70 68 50 40 :30 20 0 I I I I I I I PALlSADES:

8 MIL DENT MIX -580 BOBBIN ST 3 i i I i I i i I I I i i I I I I \_ ! I I ! I 1\*\, I I I *-. **. -. -. ..... _ I -------I I ---.,... ___ .. __ --I -. *-**. \ '** I I *, ... ! \, ' I I I ....... I I ! ! I ... I i i I I I I \ ; \\ I I ! I I ; ; i I i I I I I I '* ' \. 0 18 20 30 40 Si<:1 E:0 7f1 ae 98 100 110 120 !30 140 150 lS0 I .0 i. 0 % 0 % 0 % 0 % 0 % 0 % 0

  • 20
  • 40 81 60 63 80 57 100 52 120 37 1
  • 21
  • 41 79 61 62 81 57 101 51 121 35 2 * ., .,
  • 42 78 62 62 82 57 102 51 1 ., ., 34 '-... '-'-3
  • 23
  • 43 77 63 62 83 56 103 50 123 33 4
  • 24
  • 44 76 64 61 84 56 104 50 124 31 5
  • 25
  • 45 75 65 61 85 56 105 49 125 30 6
  • 26
  • 46 74 66 60 86 56 106 49 126 28 7
  • 27
  • 47 73 67 60 87 56 107 48 127 27 8
  • 28
  • 48 72 68 60 88 55 108 48 128 25 9
  • 29
  • 49 71 69 59 89 55 109 47 129 .,-.:...:J 10
  • 30
  • 50 70 70 59 90 55 110 46 130 22 11
  • 31
  • 51 69 71 59 91 55 111 45 131 20 12 .. 32 82 52 68 72 59 92 54 112 45 132 18 13
  • 33 82 53 67 73 58 93 54 113 44 133 16 14
  • 34 82 54 67 74 58 94 54 114 43 134 14 15 .. 35 82 55 66 75 58 95 54 115 42 135 12 16
  • 36 82 56 65 76 58 96 53 116 41 136 10 17 .. 37 82 57 65 77 58 97 53 117 40 137 7 18
  • 38 82 58 64 78 57 98 53 118 39 138 5 19
  • 39 82 59 63 79 57 99 52 119 38 139 3 Curve 11 Page 11 of 2'[ 0 i. 140 0 Curve 12 Page l2 of 21
  • rn0 PAUSADES: l 1 MIL DENT Ml){ -580 BOBBIN ST 2 9t:I 80 ?13 80 -\ I "** I I 1-*-.. I _ --'* **---...... -58 40 30 20 l0 -I *-r-..._ .... _ **-*-.... I ! *-I ...... \ I *., I i *, ... I "'* .*. ! *, I *., I I I \ I '* I " I I i i \ *, I \ ... 0 0 1E1 20 30 5E* E:ti ?0 :30 98 100 110 l 20 l 30 140 150 I 6C* THP*'.lUGH WALL VS, PHASE: ANGLE: CDE:GRE:ES)

I ** (il % 0 j; 0 " 0 % 0 % 0 ,, 0 7. 0 7. '* '* ---------------------------------0 .. 20

  • 40 81 60 62 80 52 100 43 120 29 140 2 1
  • 21 .. 41 80 61 62 81 52 101 43 121 28 141 0 2 .. 22 .. 42 78 62 61 82 51 102 42 122 27 3 .. 23 ... 4-;) , I 63 60 83 51 103 42 123 26 4 .. 24 .. 44 76 64 60 84 50 104 41 124 25 5 .. 25 .. 45 75 65 59 85 50 105 41 125 24 6
  • 26 .. 46 74 66 59 86 50 106 40 126 22 7 .. 27 .. 47 73 67 58 87 49 107 39 127 21 8
  • 28
  • 48 72 68 57 88 49 108 39 128 20 9 .. 29 82 49 71 69 57 89 48 109 38 129 19 10 .. 30 82 50 70 70 56 90 48 110 37 130 17 11 .. 31 82 51 69 71 56 91 48 111 37 131 16 12 .. 32 82 52 68 72 56 92 47 112 36 132 15 13 .. 33 82 53 67 73 55 93 47 113 35 133 13 14 .. 34 82 54 67 74 55 94 46 114 34 134 12 15 .. 35 82 55 66 75 54 95 46 115 33 135 10 16
  • 36 82 56 65 76 54 96 45 116 33 136 8 17
  • 37 82 57 64 77 53 97 45 117 32 137 7 18
  • 38 82 58 64 78 53 98 44 118 31 138 5 19
  • 39 82 59 63 79 52 99 44 119 30 139 3
  • Curve 13 Page 13 of 27
  • PALISADES:

8 MtL DENT MIX -588 BOEBIN ST 4 80 .. .* ,, -. 0 .__ ........ ................ __._. __ ......____. _______________ 0 10 20 30 40 :s0 .;0 70 ae e0 100 1 i0 i20 1s0 140 1-s0 is0 % THROUGH WAL°L VS. PHASE: ANGLE: iDE:GF!EES) I ,. 0 % (1) % 0 % 0 % (1) % 0 % 0 % (1) % 0

  • 20
  • 40 81 60 67 80 56 100 45 120 29 140 4 . 1
  • 21
  • 41 80 61 66 81 55 101 44 121 28 141 2 2
  • 22
  • 42 79 62 65 82 55 102 43 122 27 142 0 3
  • 23
  • 43 78 63 65* 83 54 103 43 123 26 4
  • 24
  • 44 78 64 64 84 54 104 42 124 25 5
  • 25
  • 45 77 65 64 85 53 105 41 125 23 6
  • 26 .. 46 76 66 63 86 53 106 41 126 22 7
  • 27
  • 47 75 67 63 87 52 107 40 127 21 8
  • 28
  • 48 75 68 62 88 52 108 39 128 20 9
  • 29
  • 49 74 69 62 89 51 109 38 129 19 10
  • 30
  • 50 73 70 61 90 51 110 38 130 18 11
  • 31
  • 51 72 71 61 91 50 1 1 1 37 131 16 12
  • 32
  • 52 72 72. 60 92 49 112 36" 132 15 13
  • 33
  • 53 71 73 59 93 49 113 35 133 14 14
  • 34
  • 54 70 74 59 94 48 114 34 134 12 15 .. 35
  • 5!;i 70 75 58 95 48 115. 33 135 11 16
  • 36 82 56 69 76 58 96 47 . 116 32 136 10 17
  • 37 82 57 68 77 57 97 47 117 32 137 8 18
  • 38 82 58 68 78 57 98 46 118 31 138 7 19
  • 39 82 59 67 79 56 99 45 119 30 139 5
  • Curve 14 Page 14 of
  • 1El0 PALlSADES:

8 MI:L DENT MlX -580 BOBBlN ST 2 9111 80 70 ******-........*.* 60 50 ---40 30 20 \ 0 ........ 0 10 20 30 40 50 .i::0 70 :30 90 100 1 l0 120 130 140 150 160 THROUGH WALL l/S, PHASE ANGLE (DE:GF!E:ES) I

  • Curve 15 Page 15 of 27
  • Curve 16 Page 16 of 27
  • PALISADES:

4 MI:L DENT MIX -580 BOBBlN ST 4 100 9121 80 \ ........ . *.\ '\ > 70 ' 60 *-*-'*-*--. I I I I 50 I I I l I I I I I k, ... l I l l 40 *-....... *"* ,, . ' 30 -,* 20 ', ' '--. 10 \\ 0 \ 0 10 20 30 40 50 60 70 80 90 1B0 110 120 lSB 140 150 160 % THROUGH WALL VS. PHASE ANGLE 1DEGREES) I ** 0 % 0 % (I) % 0 % 0 % 0 % 0 % 0 % ------------------------------0

  • 20
  • 40 81 60 63 80 50 100 39 120 27 140 9 1
  • 21
  • 41 80 61 62 81 50 . 101 39 121 26 141 8 2
  • 22
  • 42 79 62 62 82 49 102 38 122 25 142 7 3
  • 23
  • 43 78 63 61 83 49 103 38 123 25 143 6 4
  • 24
  • 44 77 64 60 84 48 104 37 124 24 144 5 5
  • 25
  • 45 76 65 59 85 47 105 36 125 23 145 4 6
  • 26
  • 46 75 66 59 86 47 106 36 126 22 146 3 7
  • 27
  • 47 74 67 58 87 46 107 35 127 21 147 2 8
  • 28
  • 48 73 68 57 88 46 108 35 128 21 148 0 9
  • 29
  • 49 72 69 57 89 45 109 34 129 20 10
  • 30
  • 50 71 70 56 90 45 110 33 130 19 11
  • 31 ..
  • 51 70 71 56 91 44 111 33 131 18 12
  • 32
  • 52 69 72 55 92 44 112 32 132 17 13
  • 33
  • 53 69 73 54 93 43 113 32 133 16 14
  • 34
  • 54 68 74 54 94 43 114 31 134 15 15
  • 35
  • 55 67 75 53 95 42 115 30 135 14 16
  • 36 82 56 66 76 53 96 41 116 30 136 13 17
  • 37 82 57 65 77 52 97 41 117 29 137 12 18
  • 38 82 58 65 78 51 98 40 118 28 138 11 19
  • 39 82 59 64 79 51 99 40 119 27 139 10 *

Curve 17 Page 17 of 27

  • PALISADES:

8 H!L DENT MlX -580 BOBBIN sr 2 60 '* * ........ '-* ..... 18 20 30 40 50 E.1] 70 130 90 100 110 120 lSB 140 150 160 % THROUGH VS. PHASE ANGLE (DEGREES) I ** (1) % (1) ., r/J " (1) % (1) % r/J ., 0 ., (1) % '* f<:; ,. lo 0

  • 20
  • 40 61 60 69 80 S8 100 4S 120 31 140 12 1
  • 21
  • 41 80 61 68 81 S7 101 4S i 21 30 141 11 2 .. 22
  • 42 80 52 68 82 S7 102 44 1 ., .., 29 142 10 ...... 3 * ?-... :J * .1..,. . .J 79 63 67 83 S6 103 43 1 ri7 ' ... .., 28 143 9 4
  • 24
  • 44 78 64 67 84 SS 104 43 124 27 144 8 s
  • 2S
  • 4S 7E 6S 66 85 55 105 42 125 27 145 7 6 .. 26
  • 46 77 66 66 86 54 106 41 126 26 146 5 7
  • 27 82 47 ... 67 65 87 54 107 41 127 25 147 4 { { 8
  • 28 82 48 76 68 64 88 53 108 40 128 24 148 3 9
  • 29 82 49 75 69 64 89 52 109 39 129 23 149 2 10
  • 30 82 S0 75 70 63 90 52 110 38 130 22 1S0 1 11
  • 31 82 Sl 74 71 63 91 Sl 111 38 131 21 151 0 12 .. 32 82 S2 74 72 62 92 51 112 37 132 20 13
  • 33 82 S3 73 73 62 93 S0 113 36 133 19 14 .. 34 82 S4 72 74 61 94 49 114 36 134 18 15
  • 35 82 SS 72 7S 61 9S 49 115 35 135 17 16
  • 36 82 S6 ..,, r' 76 60 96 48 116 34 136 16 17
  • 37 82 S7 ..,, {' 77 S9 97 47 117 33 137 15 18
  • 38 82 58 70 78 S9 98 47 118 32 138 14 19
  • 39 82 S9 70 79 58 99 46 119 32 139 13 **

Curve 18 Page 18 of 27

  • lC0 PALISADES:

ll MIL DENT MIX -580 BOBBIN ST 2 912! 80 I I 70 "-* .......... I I I 68 I ******* ... _ -.. .. .. "** '-* ., 50 * .. 48 38 20 30 0 I I *-.. *-..............

  • -..... I I I --....... l I ! I ' **-. I I I I I I I * .. _ *. I I I ........ I I i r* .. I i I I I I * ........ I \. E1 18 *21]

4i'1 SE* E-0 70 88 98 lflE1 l 313 120 l3B 140 150 380 THROUGH VS. PHASE ANGLE (DEGF!EES'.l I

  • Ql ., Ql % l/J % l/J ., (1) % 0 % 0 % Ql % ,, /o 0
  • 20
  • 40 81 60 64 80 52 100 42 120 31 140 *15 1 .. 21 .. 41 80 61 63 81 52 101 42 121 31 141 14 .,
  • 22
  • 42 79 62 63 82 51 102 41 122 30 142 13 .:. 3
  • 23
  • 43 78 63 62 9*3 51 103 41 123 29 143 12 4
  • 24
  • 44 77 64 61 84 50 104 40 124 29 144 11 5
  • 25 .. 45 76 65 61 8S S0 10S 40 12S 28 145 10 6 + 26 .. 46 75 66 60 86 49 106 39 126 .:. I 146 9 7
  • 27 .. 47 74 67 S9 87 49 107 39 127 26 147 8 8 .. 28 .. 48 73 68 S9 88 48 108 38 128 26 148 7 9 + 29 .. 49 72 69 SB 89 48 109 38 129 2S 149 6 10 .. 30 82 S0 72 70 58 90 47 110 37 130 24 1S0 4 11
  • 31 82 51 71 71 57 91 47 111 37 131 ... -.:. ;) 151 3 12
  • 32 82 52 70 72 S6 92 46 112 36 132 22 1S2 2 13 + 33 82 S3 69 73 S6 93 46 113 36 133 22 1S3 14
  • 34 82 S4 68 74 SS 94 45 114 3S 134 21 154 0 15
  • 3S 82 SS 68 7S 5S 95 45 115 34 135 20 16 .. 36 82 .. S6 67 76 S4 96 44 116 34 136 19 17 .. 37 92 S7 66 77 S4 97 44 117 33 137 18 18
  • 38 82 S8 6S 78 S3 98 43 118 33 138 17 1 9 + 39 82 S9 65 79 S3 99 43 119 _., ;).:,. 139 16
  • Curve 19 Page 19 of 27 PALISADES:

B M!L DENT MIX -588 BOBBIN ST 2

  • HlEl 9121 I 8121 70 -I I ****-.. I '--.... ' .. ' '" -. *-...... 88 '*-.... I *** .. ............

50 I ., ** ... .. . , 48 38 28 10 .. I \ ..* **, ******* *.. I I I .1 I *J I *, *-* *. -. * .. *-i ! ! *, *,, I ...... I -. I I -. * .. * .* ** ..... , '* 0 8 10 20 3E1 48 58 E 0 0 7[1 138 98 100 110 120 l80 148 150 160 THF.:*'.lLIGH VS. PHASE ANGLE .:DEGREES) I ** (1) ., (1) % 0 ., (1) % Q) r. Q) i. Q) r. Q) r. lo lo 0

  • 20
  • 40 81 60 71 80 59 100 43 120 28 140 12 1
  • 21 .. 41 81 61 71 81 58 101 43 121 *27 141 12 2
  • 22
  • 42 80 62 70 82 57 102 42 122 26 142 11 3 .. .,-.:. :i .. 43 80 63 70 83 56 103 41 123 25 143 10 4
  • 24
  • 44 79 64 69 84 56 104 40 124 24 144 9 5 .. 25 .. 45 79 65 69 85 55 105 40 125 24 145 9 6 .. 26 .. 46 79 66 68 86 54 106 39 126 23 146 8 7
  • 27 .. 47 78 67 67 87 53 107 38 127 22 147 7 8
  • 28
  • 48 78 68 67 88 53 108 37 128 21 148 7 9
  • 29 .. . 49 77 69 66 89 52 109 36 129 21 149 6 10
  • 30 82 50 77 70 65 90 51 110 36 130 20 150 5 11 .. 31 82 51 76 71 65 91 50 111 35 131 19 151 5 12
  • 32 82 52 76 72 64 92 50 112 34 132 18 152 4 13 .. 33 82 53 75 73 63 93 49 113 33 133 18 153 3 14
  • 34 82 54 75 74 6"3 94 48 114 32 134 17 154 3 15
  • 35 82 55 74 75 62 95 47 115 -? 135 16 155 2 16
  • 36 82 56 74 76 61 96 47 116 31 136 15 156 1 17
  • 37 82 57 73 77 61 97 46 117 30 137 15 157 1 18
  • 38 82 58 73 78 60 98 45 118 29 138 14 158 0 1 9
  • 39 82 59 72 79 59 99 44 119 28 139 13 *
  • Page 21 of' 27
  • PAL!SADES:

4C4F RNALYS!S CURVE *1 I I'll!! 91!1 8til 7til 80 50 40 30 I I"--... / **-I ** ........ i **-.......__ f"-._ __ I / ....... , ... ..... ,. I ', ... ,* .... '*, / '<.. '* i \ I \ \. / \ \ 20 10 I \ / \ l \ / \ I (!I 0 10 20 30 40 50 80 70 80 :30 100 110 120 130 140 150 160 170 THROUGH WALL VS. PHASE ANGLE rnEGF!EESl I 0 % 0 i. 0 % 0 % 0 % 0 % 0 % 0 % 0 0 23 58 46 95 . 69 82 92 74 115 64 138 47 161 18 3 24 60 47 95 70 82 93 73 116 63 139 46 162 16 ..., 5 25 63 48 94 71 82 94 73 117 63 140 45 163 14 .:. 3 8 26 65 49 93 72 81 95 73 118 62 141 44 164 13 4 10 27 68 50 92 T3 81 96 72 119 61 142 43 165 11 5 13 28 70 51 92 74 80 97 72 120 61 143 42 166 9 6 15 29 73 52 91 75 80 98 71 121 60 144 41 167 8 7 18 30 75 53 91 76 80 99 71 1°22 59 145 40 168 6 8 20 31 78 54 90 77 79 100 71 123 59 146 38 169 4 9 23 3,2 80 55 89 78 79 101 70 124 58 147 37 170 2 10 25 33 83 56 89 79 78 102 70 125 S7 148 36 171 0 11 28 34 85 S7 88 80 78 103 69 126 S7 149 35 12 30 35 88 58 88 81 78 104 69 127 S6 150 34 13 33 36 90 S9 87 82 77 105 68 128 SS 151 32 14 35 37 93 60 87 83 77 106 68 129 SS 152 31 1S 38 38 9S 61 86 84 77 107 68 130 S4 153 30 16 40 39 98 62 86 8S 76 108 67 131 S3 1S4 28 17 43 40 99 63 8S 86 76 109 67 132 52 lSS 27 18 45 41 99 64 8S 87 75 110 66 133 Sl 1S6 2S 19 48 42 98 6S 84 88 75 111 66 134 S0 157 24 20 S0 43 98 66 84 89 7S 112 6S 13S S0 1S8 22

  • 21 53 44 97 67 83 90 74 113 6S 136 49 1S9 21 22 5S 4S 96 68 83 91 74 114 64 137 48 1 60 19

Page 22 of 27

  • H!ll!l 9t!I Bta PALISADES:

4C4F" ANALYSIS CURl/E *2 ,_ I -... '* "-.. / * ......... --*-.... '-I I "'*-, 60 I ......... ... ', I ............. \ ..... 50 '* 40 30 I ""'* l / **, \. '* .t \ 20 10 ,' \ \ I \ / '\ \ / \ / \ !!J 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 1B0 170 ::-; THROUGH WALL VS. PHASE ANGLE (DEGREES) I ,** 0 % 0 % 0 % 0 % 0 % 0 % 0 % 0 % --. --0 0 23 58 46 96 69 85 92 75 115 63 138 44 161 16 3 24 60 47 96 70 85 93 7*5 116 62 139 43 162 14 2 5 25 63 48 95 71 84 94 74 '17 61 140 42 163 13 3 8 26 65 49 95 72 84 95 74 118 61 141 41 164 11 4 10 27 68 50 94 73 83 96 73 119 60 142 40 165 9 5 13 28 70 51 94 74 83 97 73 120 59 143 39 166 8 6 15 29 73 52 93 75 83 98 72 121 59 144 38 167 6 7 18 30 75 53 93 76 82 99 72 122 58 145 37 168 4 8 20 31 78 54 92 '77 82 100 71 123 57 146 36 169 3 9 23 32 80 55 92 78 81 101 71 . 124 56 147 34 170 1 10 25 33 83 56 91 79 81 102 70 125 56 148 33 171 0 11 28 34 85 57 91 80 80 103 70 126 55 149 32 12 30 35 88 58 90 81 80 104 69 127 54 150 31 13 33 36 90 59 90* 82 80 105 69 128 53 151 29 14 35 37 93 60 89 83 79 106 68 129 52. 152 28 15 38 38 95 61 89 84 79 107 68 130 52 153 27 16 40 39 98 62 88 85 78 108 67 131 51 154 26 17 43 40 99 63 88 86 78 109 66 132 50 155 24 18 45 41 ,99 64 87 87 77 110 66 133 49 156 23 19 48 42 99 65 87 88 77 111 65 134 48 157 21 20 50 .43 98 66 86 89 77 112 65 135 47 158 20 21 53 44 98 67 86 90 76 113 64 136 46 159 19 2*2 55 45 97 68 86 91 76 114 63 137 45 160 17

  • P.age 23 of 27
  • 11!10 9 C!I 81il *PALISADES:

4C4r RNALYStS CURVE *3 / \ ......... ...., ....... / ., .. , ..... ........ J 7t11 6!3 50 40 30 I -...., I ........ -....... I *-, .. ___ I -'-\ '\._ I "' J ..... 20 10 \, / \ /* l!J 0 10 20 30 40 50 60 70 80 90 100 l10 l20 130 140 150 160 170 % THROUGH WALL VS. PHASE ANGLE (DEGREES) I .'. 0 % 0 % 0 % 0 % 0 % 0 % 0 % 0 % 0 0 25 63 S0 94 75 81 100 69 . 125 56 150 37 175 9 3 26 6S SI 93 76 80 101 69 126 SS 151 36 176* 7 .., 5 27 68 52 92 77 80 102 68 127 54 152 35 177 6 "-3 8 28 70 S3 92 78 79 103 68 128 54 153 34 178 5 4 10 29 73 S4 91 79 79 104 67 129 53 154 33 179 3 5 13 30 7S S5 91 80 78 10S 67 130 S2 155 32 180 0 6 15 31 78 S6 90 81 78 106 66 131 52 156 31 7 18 32 80 S7 90 B2 77 107 66 132 51 157 30 8 20 33 83 58 89 83 77 108 6S 133 50 158 29 9 23 34 85 59 BB B4 76 109 65 134 50 159 28 10 25 35 8B 60 BB .as 76 110 64 135 49 160 27 11 28 36 90 61 87 86 76 111 64 136 48 161 26 12 30 37 93 62 87 87 75 112 63 137 48 162 25 13 33 38 9S 63 86 BB 7S 113 63 138 47 163 24 14 3S 39 98 64 B6 89 74 114 62 139 46 164 22 15 38 40 99 65 85 90 74 115 62 140 45 165 21 16 40 41 99 66 85 91 73 116 61 141 44 166 20 17 43 42 99 67 84 92 73 117 60 142 44 167 19 18 45 43 98 68 84 93 72 118 60 143 43 168 18 19 48 44 97 69 83 94 72 119 S9 144 42 169 16 20 50 45 97 70 83 95 71 120 S9 145 41 170 lS 21 S3 46 96 71 82 96 71 121 58. 146 40 171 14 22 55 47 95 72 82 97 71 122 SB 147 39 172 13

  • 23 58 4B 95 73 82 98 70 123 57 148 39 173 11 24 60 49 94 74 81 99 70 124 S'S 149 38 174 10 P_age 24 of 27
  • ll!ll!! 91!1 8111 PALISADES:

4C4F" ANALYSIS CURl/E *4 r ,, ,_ I / "-... "----......... 7111 60 50 40 '"" I --,. / '*" I ... ,"** / i\'\ \ 30 20 10 I\ J \ / \ \ \ I \ \* / \ I '* I r\ \ \ 10 20 30 40 50 60 70 80 80 100 110 120 130 140 150 160 170 Y. THROUGH WALL VS. PHASE ANGLE (DEGREES) I * (1) % (1) % (1) % 0 % 0 % 0 % (1) % (1) % 0 0 20 74 40 92 60 81 80 71 100 58 120 39 140 11 4 21 78 41 91 61 81 81 71 101 57 121 38 141 9 2 7 22 81 42 91 62 80 82 70 102 56 122 36 142 7 3 , , 23 85 43 90 63 80 83 69 103 55 123 35 143 5 4 15 24 89 44 90 64 79 84 69 104 55 124 34 144 4 5 19 25 93 45 89 65 79 85 68 105 54 125 33 145 ., '-6 22 26 96 46 88 66 .78 86 68 106 53 126 31 .146 0 7 26 27 99 47 88 67 78 87 67 107 52 12( 30 8 30 28 99 48 87 68 77 88 66 108 51 128 29 9 33 29 99 49 87 69 77 89 66 109 50 129 27 10 37 30 98 50 86 70 76 90 65 110 49 130 26 11 41 31 97 51 86 . 71 76 91 64 111 48 131 25 12 44 32 97 52 85 72 75 92 64 112 47 1-., :,,_ 23 13 48 33 96 53 85 73 75 93 63 113 46 133 22 14 52 34 95 54 84 74 74 94 62 114 45 134 20 15 56 35 95 SS 84 75 74 95 62 115 44 135 19 16 59 36 94 56 83 76 73 96 61 116 43 136 17 17 ,..._ tl .;J 37 94 57 83 77 73 97 60 117 42 137 16 18 67 38 93 58 82 78 72 98 59 118 41 138 14 1 g 70 39 92 59 82 79 72 99 59 119 40 139 12 ** Page 25 of 27

  • PALISADES:

4G4F ANALYSIS CURVE *5 11!11!1 ", ' 912! *-., 81il 70 60 50 I * .. ............ . , "" I ----.. , -., / -.. ""* ., .. I ' ... \ .. , ... "\ ... , .. 40 30 20 10 I \ ... j *-. *, \ \, l I " , J I \ I I \., *, ,_ 1' \ \ \ 10 20 30 40 50 80 70 80 80 100 l20 l30 140 150 160 170 % THROUGH WALL VS. PHASE ANGLE (DEGREES) I 0 % 0 % 0 % 0 % 0 % 0 % 0 % 0 % 0 0 20 gs 40 87 60 74 80 61 100 45 120 26 140 1 . 5 21 99 41 86 61 74 81 60 101 44 121 25 141 0 2 10 22 9g 42 86 62 73 82 59 102 43 122 23 3 14 23 99 43 85 63 72 83 59 103 43 123 .,.., i..i:.. 4 19 24 g8 44 84 64 72 84 58 104 42 124 21 5 24 25 97 45 84 65 71 85 57 105 41 125 20 6 29 26 96 46 83 66 70 86 56 106 40 126 19 .., 33 27 96 47 82 67 70 87 56 107 39 127 18 ( 8 38 28 gs 48 82 68 69 88 55 108 38 128 16 g 43 29 94 49 81 69 68 89 54 109 37 129 15 10 48 30 g4 50 81 70 68 90 53 110 36 130 14 11 52 31 g3 51 80 71 67 91 53 111 35 131 13 12 57 32 92 52 79 72 66 g2 52 112 34 132 11 13 62 33 92 53 79 73 66 93 51 113 33 . 133 10 14 67 34 91 54 78 74 65 94 50 114 32 134 g 15 71 35 90 55 77 75 64 95 49 115 31 135 8 16 76 36 90 56 77 76 64 96 49 116' 30 136 6 17 81 37 89 57 76 77 63 97 48 117 29 137 5 18 86 38 88 58 75 7,8 62 98 47 118 28 138 3 1 g 90 39 88 59 75 7;g 62 99 46 11 9 27 139 2

  • Page 26 of 27
  • l l!l El PALISADES:

4G4F ANALYSts CURVE *6 t .... 91:!1 8111 / ............ ,a i--, -, -, **r-_ 7[;':( 60 50 "'"--.. !'----._ I """' '--.... i '" '*, l 1\-.. '* I ' \\ 40 '*. 30 2[1 1 E) '* " J \\ I *. \\ \ / \ .. I i\ I \ \ ti 0 l0 20 30 40 50 60 ?0 80 80 l00 1l0 120 130 l40 150 180 170 180 l90 THROUGH WALL l/S, PHASE ANGLE (DEGREES) I * (2) % (2) % (2) % (2) % (2) % r/J % (2) % (2) % 0 0. 25 96 50 86 75 77 100 71 125 62 150 47 175 21 4 26 99 51 85 76 77 101 70 126 62 151 46 176 20 2 8 27 99 52 85 77 77 102 70 127 61 152 45 177 18 3 12 28 98 53 84 78 76 103 70 128 61 153 45 178 17 4 15 29 98 54 84 79 76 104 70 "129 60 154 44 179 16 5 19 30 97 55 84 80 76 105 69 130 60 155 43 180 14 6 23 31 96 56 83 81 76 106 69 131 59 156 42 181 13 7 27 32 96 57 83 82 75 107 69 132 59 157 41 182 11 8 31 33 95 58 82 83 75 108 68 133 58 158 40 183 10 9 35 34 94 59 82 84 75 109 68 134 58 159 39 184 8 10 38 35 94 60 82 85 75 110 68 135 57 160 38 185 7 11 42 36 93 61 81 86 74 111 67 136 57 161 37 186 5 12 46 37 92 62 81 87 74 112 67 137 56 162 36 187 4 13 50 38 92 63 81 88 74 113 67 138 55 163 35 188 2 14 54 39 91 64 80 89 74 114 66 139 55 164 34 189 0 15 58 40 91 65 80 90 73 115 66 140 54 165 33 16 62 41 90 66 80 91 73 116 66 141 54 166 32 17 65 42 90 67 79 92 73 117 65 142 53 167 31 18 69 43 89 68 79 93 73 118 65 143 52 168 30 19 73 44 89 69 79 94 72 119 65 144 52 169 29 20 77 45 88 70 79 95 72 120 64 145 51 170 27 21 81 46 88 71 78 96 72 121 64 146 50 171 26 22 85 47 87 72 78 97 72 122 63 147 49 172 25 ** 23 88 48 87 73 78 98 71 123 63 148 49 24 92 49 86 74 77 99 71 124 63 149 48 173 24 174 22 Page 27 of 27

  • PALISADES:

4C4F RNALYsrs CURVE *7 /'\* ""-I 911l 8lil **-...._ / -....... ...., ...... I ........... _ ...... I '"-.... !"-._ I ,, I'-\. \ 71il 60 50 40 10 I '\, " I [\\ \ / ' \ I/ \ \ :30 20

  • l!J 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 Y. THROUGH WALL VS. PHASE ANGLE (DEGREES)

I 0 % 0 i. 0 % 0 % 0 % 0 % 0 % 0 i. Q) Q) 23 92 46 84 69 73 92 65 115 56 138 41 161 16 4 24 96 47 83 70 72 93 64 116 55 139 40 162 14 ..., 8 25 99 48 83 71 72 94 64 117 SS 140 39 163 13 ,;. 3 12 26 99 49 82 72 72 9S 64 118 S4 141 38 164 11 4 16 27 98 S0 81 73 71 96 63 119 S3 142 37 16S 10 5 20 28 98 51 81 74 71 97 63 120 S3 143 36 166 8 6 24 29 97 52 80 7S 71 98 63 121 S2 144 3S 167 7 7 28 30 96 53 80 76 70 99 62 122 S2 145 34 168 s 8 32 31 9S 54 79 77 70 100 62 123 Sl 146 33 169 4 9 36 32 94 SS 79 78 69 101 62 124 51 147 32 170 2 10 40 33 93 S6 78 79 69 102 61 12S 50 148 31 171 0 11 44 34 92 S7 78 80 69 103 61 126 49 149 30 12 48 3S 91 58 77 81 68 104 60 127 49 150 29 13 52 36 91 59 77 82 68 105 60 128 48 151 28 14 56 37 90 60 76 83 68 106 60 129 47 152 27 15 60 38 89 61 76 84 67 107 59 130 47 153 26 16 64 39 88 62 76 85 67 108 59 131 46 154 ZS 17 68 40 88 63 75 86 67 109 58 132 45 155 23 18 72 41 87 64 75 87 66 110 58 133 45 156 22

  • 1 g 76 42 86 65 74 88 66 111 57 134 44 157 21 20 80 43 86 66 74 89 66 112 57 135 43 158 20 21 84 44 85 67 73 90 65 113 56 136 42 159 18 . _ .... 88 45 84 68 73 91 65 114 56 137 41 160 17
  • Page 1 -7 I. PURPOSE II. The following information will describe the findings relating to the specific techniques used in this qualification.

This section provides general information in regards to the set-ups and analysis techniques that were ultimately used in the evaluation of the tube samples for the known types of degradation present in the Palisades steam generators. 580 BOBBIN This technique was. initially developed to use a frequency configuration of 800-Khz, 400-Khz, 100-Khz and 10-Khz in both the differential and absolute mode. The initial probe design was a mid-range probe which did not operate satisfactorily at the 800-Khz. These probes were then replaced with a high range probe. This provided an adequate response at the frequencies but the 100-Khz and 10-Khz channels were not acceptable. Because of this limitation, created by the large frequency range employed, it was necessary to reduce the upper frequency to bring it within the operating range of the mid-range probe. A comparison study was conducted to determine if 600-Khz would provide a sufficiently high frequency to allow for an I. D.

  • suppression mix for the denting. This comparison indicated that the ability to suppress the denting was as good with the 600-Khz as with the 800-Khz. This change in-the configuration allowed for the use of a mid-range probe that would give* acceptable characteristics on all of the selected frequencies.

The development of the mixing parameters was found to be best optimized by applying various weighting factors to. the flaw responses on the A.S.M.E. standard and the dent responses. By applying more saves to the 100%, 60% and 20% defect responses than to the other remaining defects, optimization of the phase spread is achieved for the range of A.S.M.E. defects. The number of suppressions that are applied to the support and dent responses also affected this phase spread. A parametric study was conducted to determine the optimum mixing sequence of these parameters to provide the best signal to noise ratio for a given dent size. The outcome of this study is reflected in section 6.0 of this report. NOTE: Attachment-7A of this section contains data from the study. During the development of these mixing techniques, it became apparent that the curve fit routines provided in the Zetec MIZ-18 analysis software were not adequate for developing the correlation curves necessary for this evaluation. Thus, a series of 20 curves. were developed providing a range of correlation curves from which to selecte the qurve which best represented the actual phase/depth relationship. This provided a much improved 0889-001

  • Page 2 -7 accuracy over the curves generated by the MIZ-18 software.

The Zetec system currently provides for a 3-point fit curve. When this is utilized calibrating on the 100%, 60% and 20% A.S.M.E. defects, the 80% and the 40% defects do not fall on the curve line .. It became apparent that a higher order curve fit would provide greater accuracy when attempting to measure defects in this range of depths. Thus a 4 or 5-point cubic regression curve fit was utilized to establish the correlation curves. The MIZ-18 bobbin techniques provided results exceeding the capabilities of the MIZ-12 bobbin technique currently used at Palisades. The MIZ-18 bobbin techniques improved the signal to noise ratio over the analog MIZ-12 system, with the detectability of defect indications in dented regions remaining acceptably consistent in dents from 0-10 mils of radial compression, depending upon the volume of the individual defect. In dented regions above 10 mils radial compression, the ability to consistently detect and quantify the defect areas deteriorates rapidly. A complete statical analysis of the abilities of this technique is provided in section 8.0 of this report. The evaluation of the data indicates that a signal to noise ratio of L 1:1 should be maintained to consistently quantify defect indications. Figure 7-1 and 7-2 provides an example of a defect response. in relation to the residual from the combined support/dent response. 0889-001 -CH 8 VERT + -CH E. VERT + CHANNEL NO --MIX+I 2 ! ) -ST 4 IH-1 70 1 XY DISPLi:IY CHANii-==-M"T CHAHS -- SPl=IH -----2E* -10E. DEG LEFT STRIP CHART cHfiNii-::--3'1---- FREQ -----400 kHz SPl=IH -----52 ROrnTION -12E. DEG RIGHT STRIP CHART .. .. .................. . -cHfiNii-::--*1/ ___ _ FREO -----100 kHz 1---,,-..,..,,-.,..,.,,.,..-:-:---,,..,,...-,=----=-=""'"""' SPAN -----% 2. 42 VOLTS 6(1 DEG ROTATION -280 DEG LOC D + 0.0 1 l . >. ***.**** \ COIL* < FREI;) 1 2 8 4 5 E. 7 8 r I > E.(10 2 4L)(j .* 4 l HKI E. ! t 10 8 (DEFECT RESPONSE) FIGURE 7-1

  • * * -CH ::;: \.'Ef':T + -CH S \IERT +

MCI --Mli<:I+ 2 T . ST 4 Hl-170 RUM DI SF'LA'r' CHRNi-::-r:;-2 CHAMS --:?.-1-5-7 SPAM -----25 ROTRTI OM -105 DEG LEFT STRIP CHART FREQ -----400 kHz 1 *-t.7 / -t DENT RESIDUAL'"----==='"'_ L..:..:..:..:.. c:=)............ v SPAM ROT RTI -12E. DEG 1--...,.,----:=-..-:=-::o--,-:--=--==-:-=..,-! SPRM ----% I 2.25 VOLTS 48 DEG RESIDUA!-:_ .... --** I. I +/- ' -LOC D

  • 0.0 I *************************************

....... .. ...........*

> ....*................... l (SUPPORT/DENT RESIDUAL)

FIGURE 7-2 S'lSTEM -NAt.fE-------R-58l.17siT __ _ I+ of CHAM-8 COIL!+ FREQ 1 2 3 4 5 5 7 8 500 2 10 8 Page 3 -7 This indication has a signal to noise ratio of 1.07:1. Thus, the ability to differentiate between the defect indication and the residual noise is within the acceptable ratio. It should be noted the volume of the affected area of the defect directly influences the response to the defect verses the residual of the support/dent mix residual. It is quite possible to have a low volume defect with significant depth.in an area of major denting that would not maintain a ratio of 21:1: In these areas, the ability to detect and quantify the defect would depend upon the particular geometry of the defect in relation to the support and associated dent and their resultant effect upon the defect signal. The mixing capabilities of the "New-Mix" function incorporated in the DDA-4 software were demonstrated to be repeatable for the selected dent sizes. This mixing technique is *superior to the older mixing concepts used in the MIZ-12 system for two reasons: 1.) 0889-001 The final analysis set-up of the MIZ-12 analog system was dependant upon the calibration of the acquisition system being extremely precise in the phase and gain settings of each frequency module. If these parameters varied from one set-up to another, some fluctuation in the final. analysis signal calibration was experienced. With the MIZ-18 digital system, the final analysis calibration is not dependent upon the phase and gain settings during acquisition. This allows the analyst to

  • 6onsistently duplicate the required calibration settings.
  • *
  • Page 4 -7 2.) The dynamic range of the MIZ-12 analog system was limited to maximum voltage inputs from the test coil. Thus, once this limit is reached the instrumentation capabilities reach a saturation point and the signal response becomes invalid until the signal voltage comes back within the range of the instrumentation.

This *was a major problem in dented regions when the signal response from the dent would reach the saturation point. With the gain settings used for the MIZ-12 inspections this. would typically occur with dents that exceeded approximately 8 mils of radial compression. With the MIZ-18 digital system, this limitation for all practical purposes is not relevant. The dynamic range of the MIZ-18 system far exceeds the signal voltage ranges from the test coil, thus it does not reach a point of instrumentation saturation. This does not necessarily mean that detectability of defect indications can be achieved in areas of extreme denting. The signal to noise ratio criteria will still apply when evaluating these areas. The 580 bobbin provided acceptable results on wastage, pit and IGA type defects. The ability to quantify these defects can be related back to an acceptable signal to noise ratio. This acceptable ratio was primarily dependant upon the size of the dent involved and the orientation of the defect to the dent. The bobbin coil did not provide acceptable results on the circumferential (simulated crack) samples. This results from the eddy current field generated by the bobbin probe being oriented in the circumferential plane around the tube wall. Thus, the presence of a circumferentially oriented crack will not significantly interrupt the eddy current field. This will cause minimal impedance-changes between the probe to tube interface of the coil. This finding is consistent with previous studies conducted for Palisades and is also consistent with basic eddy current theory. . . Section 8.0 of this report will provide specific accuracy ranges and levels of detectability for the defect types that were included in this qualification. III. 560 AND 540 BOBBIN Data was collected with both the 560 and 540 bobbin probes. To minimize the time necessary to evaluate and determine the statistical accuracies of both techniques it, was decided the 540 bobbin would be completed initially. If the 580 and 540 bobbin provided acceptable results, the conclusion could be made that the 560 bobbin would be considered qualified . The 540 technique was configured and evaluated identically to the 580 bobbin. The findings of this qualification indicate the 540 bobbin probe will perform acceptably. The .findings as stated 0889-001

  • IV. v. Page 5 -7 above for the 580 bobbin were determined to be applicable to the 540 bobbin. A slight increase in the overall mean difference in the eddy current reported indications and also a comparable increase in the standard deviation for the overall population of the defects was observed.

This would indicate the technique of preference for the bobbin examination would be the .580" diameter probe followed by the .560" and then the .540" diameter. During recent eddy current examinations in the Palisades Steam Generators a sample of approximately 400 tubes were examined using the 0.580" diameter probe. It was determined at that time the 580-SLF probe design could be implemented without a significant number of tubes being blocked by denting. The approach that will be taken for the in-service bobbin examination will be to inspect all required tubes initially with the 580-SLF and to down size to the 560-SLF and then the 540-SLF as required. If the tube will not pass the 0.540" diameter probe, it will be considered blocked. NARROW GROOVE BOBBIN COIL AND 540 280-Khz SLOW PULL After discussions with Zetec and other industry personnel familiar with the application of the narrow groove bobbin coil, it was determined that its application for Palisades was not relevant. This technique was designed for the detection of small pit type defects and not volumetric wastage that is typical of the degradation at Palisades. It has been the experience at Palisades that this pitting condition is not present in the 1 operating steam generators. This has been substantiated by pulled tube.results from as recent as 1984. For this. reasons it was determined the narrow groove bobbin would be dropped from this qualification program. The 540 280-Khz examination was developed to determine if the position of the sleeve had moved in relation to the parent tube defect. In addition, the qualification was also to determine the optimum frequency for detection of the parent tube flaw and phase spread for defect quantification. The initial qualification was performed in 1980 (

Reference:

Consumers Power Co., NDT Services project number 80001-N). The transition to the MIZ-18 does not alter any of the original parameters of the examination, only the method of collection. For this reason it was determined that the 540 280 Khz technique could be implemented using the MIZ-18 system without.further qualification. 4C4F The same problems arose with the selection of test frequencies and *establishing correlation curves with the 4C4F as with the bobbin examinations. The test coils did not operate well at the 800-Khz, thus a 600-Khz was used as the high frequency

  • *suppression channel. A comparison of the resultant mixes 0889-001
  • *
  • Page 6 -7 indicated no appreciable difference between using the 800-Khz verses the 600-Khz. The test system was configured using only the differential mode with frequency selections of 600-Khz, 400-Khz, 100-.Khz and 10-Khz. These frequencies were combined to perform a support elimination mix and a support/dent mix (Mix-2). It was initially thought that additional support/dent mixes would be required depending upon the severity of the denting. However, this was not the case. It became evident the increase in voltage displacement that occurred when the severity of the dent increased was minimal from 4 mils through 10 mils of radial compression.

Thus, one dent mix was sufficient to accommodate this range of denting. This resulted from the surface riding capabilities of the' probe design which maintains the minimum amount of lift-off on the probe coils. With dents > 10 mils the coil voltage response increased rapidly with small increases in dent size. Because of this large voltage increase above 10 mils it was determined that additional mixes would not *provide.any_additional benefit. A selection of of seven correlation curves, using a 5 point cubic regression curve fit routine was established for the correlation curves. The probe retraction speed was* evaluated to determine if it would be possible to pull the probe at 12 inches per second verses 6 inches per second. The result of this study indicated the noise level of the probe increased significantly due to the probe chatter at the higher speed. Consequently, the 6 inches per. second pull rate was used. *

  • The ability of the 4C4F technique.to consistently quantify volumetric -conditions-is dependent upon "the circumferential of the defect. If the is not of sufficient circumferential extent to cover a minimum of two coil sets, it is probable that each pull of the probe will result in a slightly different signal response.

This is due to the orientation of the pancake coil to a slightly different portion of the defect. This limitation is compounded by the complexity of the signal response that is displayed to the analyst. Because of the probe design, the signal response will not react to defect indications in the same manner as the differential bobbin coil probes. With a bobbin coil, the phase is adjusted to cause the phase change of a defect signal to initially move in the down direction. With the 4C4F probe design it is possible for the defect to pass between the leading set of coils, which normally produces the initial response, without being detected thus no initial downward excursion to the signal response would be present. The trailing set of co.ils would then detect the defect with the signal

  • displaying an upward excursion only. This type of response is not characteristic of normal defect response.

When this is combined with the overall noise level of the surface riding probe, the signal response can become extremely complex and inconsistent. An example of this type of problem is shown in figure 7-3 and 7-4. As can be seen by the example,* a significant phase .shift has occurred between the two examinations of the same defect. With figure the defect was detected with the leading 0889-001

  • *
  • Page 7 -7 set of coils and the initial excursion is in the downward direction.

However, in figure 7-4 the same defect is detected only with the trailing set of coils causing the response to the defect to move in the upward direction which is not characteristic of defect responses from differential probes. When these indications are combined with the effects of support plates, dents and conductive deposits, it can be extremely difficult to differentiate between these signal responses to determine what is and is not a defect. -CH 2 VERT + -CH 4 HORZ + CH>MNEL NO --2 I--........ -.................. . ST 1 IN-186 RUN 999 XY DI SPLA'1' CHi'.iN*-::--f-FREQ -----400 kHz SPAN -----40 ROTATI OH -334 DEG LEFT STRIP CHAF:T EHi'.it:l*-::--2v----- FREo -----400 kHz SPAt-i -----4(1 ROTATION -3:?.4 DEG RIGHT STRIP CHART -CHAN*-::--4H" ___ _ FREQ -----10 kHz SPAN -----29 4. 4 7 VOL TS 44 DEG DEFECT ROTl=ITI ON -0 DEG --CH 2 VERT + -CH 4 HORZ + 1-==l 1--......... .......................... .. 1--RSME + 0. 00 COHFIGURATiot' t-iif11"E----_--4c:4-(-r;u-Ar-- .....................................

  • >*.........

II 4 6:24:58 PM FE8RUl=IRY 9 1989 ................................. ) .......... FREQ 1 2 7 8 1;(1(1 1 FIGURE 7-3 CHAHNEL HO --2 100 3 10 4 ST 1 IH-186 RUN 999 DISPLAY cHi'.iN*-==--a-FREQ -----400 kHz SPAN -----40 ROTATION -334 DEG LEFT STRIP CHART cHAN*-::--2;---- FREo -----400 kHz SPAl' -----40 ROTATION -384 DEG RIGHT STRIP CHART -cHi'.iN*-::--.rH" ___ _ FRE1;i -----10 kHz SPAH -----29 4. 24 . VOL TS 59 DEG DEFECT ROTAT I OH -0 DEG ASME + 0. 00 .....................................

  • ........ .. ' 4+ of' CHAN-4 6:28:05 PM FE8RUARV 9 1989 FREQ 1 2 3 4 5 6 7 8 ..........................................................

f .......... !-+-!-+-+-i-+--1 I! 10 4 FIGURE 7-4

  • Page 8 -7 For volumetric defect conditions of varying geometries the consistency of the 4C4F technique is not as good as the standard bobbin coil techniques.

This is defined in section 8.0 of this report which describes the statistical accuracies of the 4C4F technique in relation to the other techniques employed in this qualification. The detection of circumferential (crack) defects with the 4C4F technique was consistent with the qualification for the MIZ-12 system. The technique provides a reliable detectability beginning at approximately 50% of wall. The ability of the 4C4F probe to detect circumferential cracks over the bobbin techniques is due to the orientation of the eddy current fields in relation to the defect.

  • The surf ace riding pancake coil creates a circular field around the coil that is sensitive to circumferential indications which will interrupt the eddy current flow. The classification of the defect signal response as a crack indicati.on is based upon the response time of the indication.

The'crack indications are of extremely short duration which causes a fast rise time on the signal response. The amplitude is related to the number of coils affected. Figure 7-5 is a typical response to a circumferential crack.indication . -CH M 2 VERT+ -CH 4 VERT + CHRNt*lEL NO --MIX* 2 -=--ST 3 IH-211 RUN 4 >:'r' DISPLAY CHANi-==11-2 CHANS --*2-1-3-4


22 ROTATION -340 DEG LEFT STRIP CHi:lRT CHANi-::11-2'1---

CHANs --2-1-3-4


22 ROTATION -340 DEG Ril3HT STRIP CHi:lRT -cHANi-::--4V----

FREa -----1(1 kHz SPRN -----80 1. 27 \IOL TS 55 DEG CRACK ROTfiTI -1133 DEG LOC B + 0. 0

  • of' CHAN-4 10:55:05 PM FEBRUARY 10 1989 COIL* FREQ 1 2 3 4 5 6 7 8 600
  • FIGURE 7-5 0889-001
  • i
  • **
  • Page 9 -7 VI. 8X1 The design of the 8X1 probe is similar to that of the 4C4F in the construction of the probe head. The difference being the configuration of the coils. The 8X1 has 8 separate absolute coils utilizing an external reference.

This design had an improved signal to noise ratio over the 4C4F and the interpretability of the data was much improved over the 4C4F. The sixteen channels of data acquisition allowed for a support to be preformed for each coil, which minimized the influence of the support plates. The capabilities and limitations of the 8Xl were similar to the 4C4F technique. The same principles apply to the 8Xl as the 4C4F in the ability to size volumetric defects that are of. limited circumferential extent. The individual pancake coils may respond to a slightly different portion of the defect from one inspection to the next with no actual change in the defect. It is possible to approximate the circumferential extent of the defect by determining the number of affected coils. Figure 7-6 illustrates that only one coil set has detected the first. four defects in this t.ube sample. Thus, it can be estimated that the affected areas of these four defects are less than 45 degrees on the circumference . DISF'Li:IY II --0 1 2 CHll-1 \I CHll-2V 0889-001 3 CHll-3\1 i:l.S.M.E. + 4 CHll-4\1 0.0 FIGURE 7-6 ST 1 IN-186 RLIH 999

  • ** Page 10 -7 The statistical analysis indicated a tendency to undercall the depth of the volumetric defect areas and overca.11 the crack indications.

This was dependent upon the specific type of defect and the volume of the affected area. A complete statistical analysis of the technique is provided in section 8.0 of this report. A limitation of this technique is the inability to adequately suppress the horizontal effects of a dent. The response to dents are minimized by the surface riding capabilities of the probe and the fact that each coil responds independently to the dent. The geometry of the defect in relation to the dent is the determining factor in the ability to interpret the indication. The probe retraction speed w*as evaluated to determine if it would be possible to pull the probe at 12 inches per second verses 6 inches per second. The result of this study indicated the noise level of* the probe increased significantly due to the probe chatter at the higher speed. Consequently, the 6 inches per second pull rate was used. The ability of the 8X1 to detect and characterize circumferential crack indications was improved over the 4C4F technique. The level of detectability is approximately 35% through-wall in areas of denting 10 mils of radial compression. Above this denting level the consistency of detectability is undetermined due to the lack of available tube samples. The ability to characterize the crack indications is very similar to the 4C4F technique. A typical crack response is very short in time duration with minimal lobe opening to the signal response. Figure 7-7 is a typical crack response. --0889-001 -CH 2 VERT + -CH 10 VERT + CHRNNEL HO --MIX* 3 ST l IH-205 RUN 2 I' ....----' J > >-L_ -r-{ r \ XY DISPLRV CHANi-==-ff-3 CHRHS --2-10 SPRN ----- -2E.9 DEG LEFT STRIP CHRRT CHAf:ii-::--2';---- FREQ -----8*10 kHz


100 ROTRTI ml -252 DEG RIGHT STRIP CHRRT

___ _ FREQ -----100 kHz SPRH -----50 CRACK ROTRTIOH -121 DEG LOC D + 0.0 S'i'STEM CONFIGURATIOH H"R"M'E--_-:..-3x:-c-o-u-R"C--

  • of CHRH-1E. 9:04:05 RM 1 1 989 COIL+I FREQ 1 2 3 4 5 6 7 8
3 4 30*1 5E.78 rn0 '3 1B 1 2 ***********
  • ************

........... 10*1 t1:3 4 tt.5 *. nE. FIGURE 7-7

  • *
  • Page ll -7 The 8X1 technique provides no additional advantages over the bobbin coil for detection and quantification of volumetric defect *conditions, i.e. wastage, pitting and IGA. It does, however, of fer some advantages over other techniques for the detection of circumferential cracking conditions.

The improved detectability over the 4C4F would indicate the 8Xl to be the examination of choice for the cracking conditions at Palisades. It also allows some advantages for consistency in interpretation of the eddy current data. The 8X1 signal response is much less complicated than the 4C4F technique which reduce the possibility of an incorrect evaluation of a defect signal. Based upon these findings,* the 8Xl technique should be used to supplement the bobbin examination and to replace the 4C4F for the purpose of circumferential crack detection. The statstical analysis of this technique is provided in section 8.0 of this report. VII. MOTORIZED ROTATING PANCAKE (MRPC) The qualification of this technique was intended to be an extension of a qualification that was initiated in 1987. The objective of this previous qualification was to determine the ability to detect and quantify A.S.M.E. type defects. It was concluded that the technique was equivalent to a previously qualified technique using a pancake probe with a rotating probe pusher. The intent of the present qualification was to further determine the MRPC capabilities in a wider range of defect types and configurations. To fully evaluate this technique; it was determined the present.qualification.would not base any results upon the previous data. This would keep the MRPC data consistent with the other techniques evaluated in this qualification. The *MRPC technique provided better detection of volumetric defects in dented regions than any of the other techniques employed in this qualification. A major area of emphasis for this technique was to determine the detectability of defects .in dented regions when the denting levels exceeded the capabilities of the pull through examinations. The technique was found to be capable of detecting all types of volumetric defects through the complete range of dent samples. These samples included dents 30 mils of diametrical compression. Although the statistical analysis was not complete for this data set at the time of this report, the approximate level of detectability is in the range of 30% to 40%. No approximation of the ability to quantify the flaw depths has been made at this time. Upon completion of the statistical analysis, this report shall be revised to include the accuracies of MRPC technique. The MRPC technique utilizes a rotating pancake coil inserted into the tube I.D. and rotated at approximately 220 rpm with a nominal pull speed of 0.2" per second. This results in a helical scan of the.tube wall. The signal is then displayed in a C-Scan presentation which can be utilized for defect characterization. 0889-001

  • Page 12 -7 The C-Scan display plots the amplitude of the signal response in relation to the circumferential and axial position of the defect in the tube. This a 3-dimensional view of the defect which can be use to characterize the defect according to orientation in the tube and the amount of area affected.

Figure 7-8 provides an example of a volumetric wastage defect located just above the support plate. Figure 7-9 is an example of a pit type defect located within the support plate and associated with a dent. Figure 7-10 is a crack type indication with minimal axial extent. -CH M 2 VERT+ -0 .. 87 +0.87 0889-001 CHAt*lt*lEL tlO --MIX!! 2 FIGURE 7-8 WASTAGE DEFECT ST 2 Itl-311 RUt4 --M 2 CHHHS --2-3 SF'Ht*l -----%0 ROTHTI ot4 -1 DEG Mi=!l<: VOL TS '34. 2 PITCH CIRC PITCH 29 Z ROTATiot4 295 ;x; OH 65

  • OF SCAHS 43 PO I HTS/SCHt4 B0
  • **
  • 0889:...001

-CH M 2 VERT+ -I E I -1.01 i J ....... !!!!j I +1. 01 -CH M 2 VERT+ +0.80 FIGURE 7-9 PIT TYPE DEFECT CHRNl4EL NO --MIX* 1 FIGURE 7-10 CRACK TYPE DEFECT ST 2 rn-317 RUH CHRt*HI --M 2 CHRt*J::: --2-8 SPRN -----120 ROTRTION -DEG MRX VOL TS 11. 7 RL PITCH 4(1 CIRC PITCH 29 2 296 ROTRTJot-l 5E.

  • OF SCRt*IS 49 PO I 82 ST 2 IN-205 RUN CHRN* --11 CHRt4S --1-8 SPRH -----12(1 ROTRTI -255 DEG MRX VOLTS 11.7 AXIRL PITCH 89 CIRC PITCH 29 2 ROTATION 121 X ROTRTION 52
  • OF SCRNS 3'3 PO ItffS/SCAt4 81 13 -7
  • VIII. 0889-001 Page 14 -7 ROTATIONAL AXIAL WOUND DIFFERENTIAL The statistical analysis of this technique is not complete as of this date. Upon completion of the analysis the conclusions for this technique will be finalized.

ATTACHMENT 7-A Page 1 of 27 PLANT UNIT S/G LEG REEL TO REEL DATE

  • MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG ., CH# LOCATION EXTENT '* [" LINT MIZ-18 QUALIFICATION ANL B. CURTIS II I DAT 3/01/89 REL #*11 MIZ18 QUAL PRB 580 SLF OSK lS NEW.MIX/DATA ANALYSIS CURVE PARAMETRIC STUDY ANALYSIS CURVE VALUES OF ASME FLAWS AND 107. OD GROOVE FOR CH3<400KHZ>

AND MIX1(STANDARD 400/100> WHERE CURVES ARE ESTABLISHED USING SP1=100, SP2=60, AND SP3=20. 1 490 999 7.68 40 99 3 1007.ASME+ 0.00 5.93 83 76 3 81% ASME+ 0.00 109 59 3 60%ASME + 0.00 4.90 133 39 3 427. ASME+ 0.00 5.00 153 20 3 .. 20% ASME+ 0.00 8.98 149 24 .. 3 10%GROOV+

  • 0. 00 1 490 999 8.39 30 100 M 1007.ASME+

0.00

  • 6.05 66 77 M 81% ASME+ 0.00 5.68 87 60 M 607.ASME + 0.00 3.97 105 42 M 42% ASME+ 0.00 3.30 122 21 M 207. ASME+ 0.00 5.83 115 30 M 10%GROOV+

0.00 RUN 1 : 400-600-100 WITH 1 SAVE ON EACH ASME STD FLAW AND 1 SUPPRESSION ON TSP & 4MIL ONT l 490 999 0.38 247 RES M 2 4M DENT+ 0. 00 (RES IDUAU 490 999 M .., <.. CURVE 1: SP1=100;SPZ=60;SP3=20 1.95 39 100 M 2 100%ASME+ 0.00 2.55 40 97 M 2 81% ASME+ 0.00 2.44 63 60 M 2 607.ASME + 0.00 1. 90 93 32 M 2 42% ASME+ 0.00 1.86 114 20 M 2 207. ASME+ 0.00 4.06 120 <20 M 2 10%GROOV+ 0.00 M 2 CURVE 2: SP1=81;SP2=60;SP3=20 2.55 40 81 M 2 81% ASME+ 0.00 2.44 63 59 M 2 60%ASME + 0.00 1. 90 93 35 M 2 42% ASME+ 0.00 1.86 114 20 M 2 207. ASME+ 0.00 . ,..,.. "+

  • IUCI 120 <20 M 2 10%GROOV+

0.00 M .... CURVE ::J; SP 1-'-81*; SP2-42; SP3-.:20 <.. .., ..... 40' " M 2 I"\ ..* , ,,..,... ... ,.... e.00 <.. ,;:)"+ OJ 0 I /o n;:>J"IC:.T

2. 45
  • 62 67 M 2 ,... n*1,..,...

... ,... , ......... oiu r.n;:inc:. .,.. \U. VJ\U

  • LEVEL Page 2 of 27
  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG 7. CH# LOCATION EXTENT 490 999 1. 90 93 42 M 2 427. ASME+ 0.00 1.87 113 21 M 2 20% ASME+ 0.00 4.06 120 <20 M 2 10%GROOV+

0.00 M ., CURVE 4:SP1=80;5P2=60;5P3=42 .. 2.55 40 81 M 2 817. ASME+ 0.00 2.44 62 60 M 2 607.ASME + 0.00 1. 90 92 42 M 2 427. ASME+ 0.00 1.85 114 33 M 2 207. ASME+ 0.00 4.05 119 31 M 2 107.GROOV+ 0.00 M 2 CURVE 5:SP1=60;SP2=42;SP3=20 2.44 62 60 M 2 607.ASME + 0.00 1. 90 92 42 M 2 427. ASME+ 0.00 1.85 114 20 M 2 207. ASME+ 0.00 4.05 11 g <20 M 2 107.GROOV+ 0.00 RUN 2: SAME AS RUN 1 EXCEPT 2 SAVES ON 207. FLAW 1 490 999 0.35 257 RES M 3 4M DENT+ 0 . 00 <RES ID UAL l M 3 CURVE 1: SP1=100;SP2=60;SP3=20 2.07 39 97 M 3 1007.ASME+ 0.00

  • 2.69 40 100 M 3 817. ASME+ 0.00 2.56 63 60 M 3 607.ASME + 0.00 2.02 95 31 M 3 427. ASME+ 0.00 2.01 115 20 M 3 207. ASME+ 0.00 4.36 120 <20 M 3 107.GROOV+

0.00 M 3 CURVE 2: SP1=81;SP2=60;SP3=20 2.69 40 81 M 3 817. ASME+ 0.00 2.56 63 60 M 3 607.ASME + 0.00 2.02 95 34 M 3 42% ASME+ 0.00 2.01 115 20 M 3 20% ASME+ 0.00 4.36 120 <20 M 3 107.GROOV+ 0.00 M 3 CURVE 3: SP1=81;SP2=42;SP3=20 2.69 40 Bl M 3 81% ASME+ 0.00 2.56 63 67 M 3 607.ASME + 0.00 2.02 95 42 M *3 427. ASME+ 0.00 2.01 115 20 M 3 207. ASME+ 0.00 4.36 120 <20 M 3 107.GROOV+ 0.00 M 3 CURVE 4: SP1=81;SP2=60;SP3=42 2.69 40 81 M 3 817. ASME+ 0.00 2.56 64 60 M 3 607.ASME + 0.00 2.02 95 42 M 3 427. ASME+ 0.00 2.01 115 33 M 3 207. ASME+ 0.00 4.36 120 31 M 3 107.GROOV+ 0.00 M 3 CURVE 5: SP1=60;SP2=42;SP3=20 2.56 64 60 M 3 607.ASME + 0.00 2.02 95 42 M 3 42% ASME+ 0.00

  • 2.01 115 20 M 3 20% ASME+ 0.00 LEVEL Page 3 of 27
  • PLANT UNIT SIG LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG 7. CH# LOCATION EXTENT 490 999 RUN 3: SAME AS RUN 1 EXCEPT 3 SAVES ON 207. FLAW 490 999 0.45 242 RES M 4 4M DENT+ 0. 00 . 490 999 M 4 CURVE 1 :SP1=100;SP2=60;SP3=20 2.37 40 1 00 M 4. 1007.ASME+

0.00 3. 09 40 100 M 4 81X ASME+ 0.00 2.91 64 60 M 4 607.ASME + 0.00 2.31 96 31 M 4 427. ASME+ 0.00 2.34 117 20 M 4 207. ASME+ 0.00 5.10 122 <20 M 4 107.GROOV+ 0.00 M 4 CURVE 2: SP1=81;SP2=60;SP3=20 3.09 40 81 M 4 817. ASME+ 0.02 2. 91 64 60 M 4 607.ASME + 0.00 2.31 96 34 M 4 42% ASME+ 0. 00 2.34 117 20 M 4 207. ASME+ 0.00 5.10 122 <20 M 4 107.GROOV+ 0.00 M 4 CURVE 3:SP1=81 ;SP2=42;SP3=20 3.10 40 80 M 4 817. ASME+ 0.00 2.92 65 66 M 4 607.ASME + 0.00

  • 2.31 96 41 M 4 42% ASME+ 0.00 2.34 116 21 M 4 20'% ASME+ 0.00 5.10 122 <20 M 4 107.GROOV+

0.00 M 4 CURVE 4:SP1=81 ;SP2=60;SP3=42 3.10 40 81 M 4 81% ASME+ 0.00 2.92 64 60 M 4 607.ASME + 0.00 2.32 96 42 M 4 42% ASME+ 0 .00 2.32 117 32 M 4 207. ASME+ 0.00 5.10 122 31 M 4 107.GROOV+ 0 .. 00 M 4 CURVE 5: SP1=60;SP2=42rSP3=20 2.92 64 60 M 4 607.ASME + 0.00 2.32 96 42 M 4 42% ASME+ 0.00 2.32 117 20 M 4 207. ASME+ 0.00 5.10 122 <20 M 4 107.GROOV+ 0.00 490 999 RUN 4 SAME AS RUN 1 EXCEPT 6 SAVES ON 20% FLAW' 490 999 0.54 217 RES M 4 4M DENT+ 0.00 490 999 M 4 CURVE 1: SP1=100;SP2=60;SP3=20 2.76 40 100 M 4 1007.ASME+. 0.00 3.59 40 100 M 4 81% ASME+ 0.00 3.39 63 60 M 4 607.ASME + 0.00 2. 72 96 31 M 4 427. ASME+ 0.00 2.81 117 20 M 4 20'% ASME+ 0.00 6 .11 122 <20 M 4 10%GROOV+ 0.00

  • M 4 CURVE 2: SP1=81 ;SP2=60;SP3=20 3.59 40 81 M 4 Bl'Z ASME+ 0.00 LEVEL Page 4 of 27 ** PLANT UNIT S/G LEG REEL TO REEL DATE . MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 3.39 63 60 M 4 60%ASME + 0.00 2. 72 96 34 M 4 427. ASME+ 0.00 2.81 117 20 M 4 207. ASME+ 0.00 6. 11 122 <20 M 4 10%GROOV+

0.00 M 4 CURVE 3: SP1=81 ;SP2=42;SP3=20 3.59 40 80 M 4 81% ASME+ 0.00 3.39 63 67 M 4 60%ASME + 0.00 2. 72 96 41 M 4 42% ASME+ 0.00 2.81 117 <20 M 4 20% ASME+ 0.00 6.11 122 <20 M 4 107.GROOV+ 0.00 M 4 CURVE 4: SP1=81 ;SP2=60;SP3=42 3.59 40 81 M 4 817. ASME+ 0.00 3.39 63 60 M 4 607.ASME + 0.00 2. 72 96 41 M 4 427. ASME+ 0.00 2.81 117 34 M 4 207. ASME+ 0.00 6.11 122 32 M 4 107.GROOV+ 0.00 M 4 CURVE 5: SP1=60;SP2=42;5P3=20 3.39 63 60 M 4 607.ASME + 0.00 2. 72 96 42 M 4 42% ASME+ 0.00 2.81 117 20 M 4 207. ASME+ 0.00

  • 6.42 123 <20 M 4 107.GROOV+

0.00 RUN S NO SAVE ON 107.GRV11SAVE/SUPPRESSION ELSEWHERE 490 999 0.33 82 RES M S 4M DENT+ 0.00 490 999 M S CURVE 1: 5P1=100;SP2=60;SP3=20 1.60 40 99 M s 1007.ASME+ 0.00 2.00 39 97 M s 81% ASME+ 0.00 1 .81 68 59 M 5 601.ASME + 0.00 1.64 102 28 M 5 427. ASME+ 0.00 1. 92 114 20 M 5 207. ASME+ 0.00 4.26 115 <20 M 5 107.GROOV+ 0.00 M *5 CURVE 2: SP1=81;SP2=60;SP3=20 2.00 40 81 M S 817. ASME+ 0.00 1. 81 68 60 M S 60%ASME + 0.00 1.64 103 30 M 5 427. ASME+ 0.00 1. 92 115 20 M 5 207. ASME+ 0.00 4.26 116 <20 M S 10%GROOV+ 0.00 M S CURVE 3: SP1=81 ;SP2=421SP3=20 2.00 40 81 M 5 817. ASME+ 0.00 1.81 68 70 M S 607.ASME + 0.00 1.63 104 40 M S 427. ASME+ 0.00 1. 93 11 s <20* M S 207. ASME+ 0.00 4.26 117 <20 M S 107.GROOV+ 0.00

  • M s CURVE 4: SP1=81;SP2=60;SP3=42 2.00 40 81 M s 817. ASME+ 0.00 LEVEL Page 5 of 27
  • PLANT UNIT S/G LEG REEL TO REEL DATE . MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 1 .81 68 60 M 5 607.ASME + 0.00 1 .64 103 42 M 5 42% ASME+ 0.00 1 *. 92 115 37 M 5 207. ASME+ 0.00 4.26 116 36 M 5 107.GROOV+

0.00 M 5 CURVE 5: SP1=60;SP2=42;SP3=20 1 .81 68 59 M 5 607.ASME + 0.00 1.64 103 41 M 5 42% ASME+ 0.00* 1. 92 115 <20 M 5 20% ASME+ 0.00 4.26 116 <20 M 5 107.GROOV+ 0.00 RUN 6: 0 SAVE ON 107.;3 SAVE ON 20%; 1 SAV/SUP OTHER 490 999 M 5 CURVE 1: SP1=100;SP2=60;SP3=20

1. 73 40 100 M 5 100%ASME+

0.00 2.15 40 100 M 5 81% ASME+ 0.00 1.88 69 60 M 5 60%ASME + 0.00 1.67 106 28 M 5 427. ASME+ 0.00 1. 98 120 20 M 5 20% ASME+ 0 .. 00 4.39 121 <20 M 5 107.GROOV+ 0.00 M-5 CURVE 2: SP1=81;SP2=601SP3=20

  • 2.15 40 80 M 5 81% ASME+ 0.00 1.88 69 59 M 5 607.ASME + 0.00 1.67 106 31 M 5 427. ASME+ 0.00 1. 98 120 <20 M 5 20% ASME+ 0.00 4.39 121 <20 M 5 10%GROOV+

0.00 M 5 CURVE 3: SP 1 =81 ; SP2=42; SP3=20 . 2 .*15 4.0 80 M 5 81% ASME+ 0.00 1.88 69 70 M 5 607.ASME + 0.00 1.67 106 41 M 5 42% ASME+ 0.00 1. 98 120 <20 M 5 20% ASME+ 0.00 4.39 121 <20 M 5 107.GROOV+ 0.00 M 5 CURVE 4: 2.15 40 81 M 5 81% ASME+ 0.00 1.88 69 59 M 5 607.ASME + 0.00 1.67 106 41 M *5 427. ASME+ 0.00 1. 98 120 36 M 5 201 ASME+ 0.00 4.39 121 36 M 5 107.GROOV+ 0.00 M 5 CURVE 5: SP1=60;SP2=421SP3=20 1.88 69 61 M 5 60%ASME + 0.00 1.67 106 42 M 5 42% ASME+ 0.00 1. 95 120 20 M 5 207. ASME+ 0.00 4.39 121 <20 M 5 107.GROOV+ 0.00 RUN 7: 0 SAV 107.;3 SAVS 20/42%; 1 SAV/SUP OTHER 490 999 0.38 52 RES M 5 4M DENT+ 0.00

  • 490 999 M 5 CURVE 1: SP1=100;SP2=60;SP3=20 LEVEL Page 6 of 27
  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 1. 76 40 100 M 5 100%ASME+

0.00 2. 18 40 100 M 5 81% ASME+ 0.00 1. 95 68 60 M 5 60%ASME + 0.00 1. 75 104 28 M 5 42% ASME+ 0.00 2.04 118 20 M 5 20% ASME+ 0.00 4.54 119 <20 M 5 10%GROOV+ 0.00 M 5 CURVE z: SP1=81 ;SP2=60;5P3=20 2 .18 40 81 M 5 81% ASME+ 0.00 1. 95 68 60 M 5 607.ASME + 0.00 1. 75 104 31 M 5 427. ASME+ 0.00 2.04 118 20 M 5 20% ASME+ 0.00 4.54 119 <20 M 5 10%GROOV+ 0.00 M 5 CURVE 3: SP1=81 ;SP2=42;SP3=20

2. 18 40 81 M 5 81% ASME+ 0.00 1. 96 68 70 M 5 60%ASME + 0.00 1. 74 105 42 M 5 42% ASME+ 0.00 2.05 118 20 M 5 20% ASME+ 0.00 4.54 119 <20 M 5 10%GROOV+

0.00 M 5 CURVE 4: SP 1 =8*1 ; SP2=60; SP3=42 2 .18 40 81 M 5 81% ASME+ 0.00

  • 1. 95 68 60 M 5 60%ASME + 0.00 1. 75 104 42 M 5 427. ASME+ 0.00 2.04 118 36 M 5 207. ASME+ 0.00 4.55 119 36 M 5 10%GROOV+

0.00 M 5 CURVE 5: SP1=60;SP2=42;5P3=20

1. 95 . 68 60 M 5 607.ASME + 0.00 RUN 8:SAVES-100/1 ;81/1 ;60/3;42/1
20/3;10/0 SUPPRESSIONS

TSP/1 ;4M DNT/1 490 999 0.40 213 RES M 5 4M DENT+ 0.00 490 999 M 5 CURVE 1: SP1=1001SP2=60;SP3=20

1. 93 40 100 M 5 1007.ASME+

0.00 2.55 41 97 M *5 81% ASME+ 0.00 2.52 66 60 M 5 60%ASME + 0 .. 00 2. 1(1) 97 32 M 5 42% ASME+ 0.00 2. 19 117 20 M 5 20% ASME+ 0.00 4.82 123 <20 M 5 107.GROOV+ 0.00 M 5 CURVE 2: SP1=81 ;SP2=60;SP3=20 2.55 41 81 M 5 817. ASME+ 0.00 2.52 67 60 M 5 60%ASME + 0.00 2.10 96 37 M 5 427. ASME+ 0.00 2. 1 g 118 20 M 5 207. ASME+ 0.00 4.82 123 <20 M 5 107.GROOV+ 0.00 M 5 CURVE 3: SP1=81 ;SP2=42;SP3=20

  • 2.55 41 81 M 5 817. ASME+ 0.00 2.51 67 65 M 5 607.ASME + 0.00 LEVEL Page 7 of 27
  • PLANT UNIT SIG LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTEIH 490 999 2.11 97 42 M 5 42% ASME+ 0.00 2. 18 117 21 M 5 20% ASME+ 0.00 4.83 123 <20 M 5 1.0%GROOV+

0.00 M 5 CURVE 4: SP1=81;SP2=60;SP3=42 2.55 41 80 M 5 81% ASME+ 0.00 2.51 67 59 M S 60XASME + 0.00 2.11 97 42 M 5 42% ASME+ 0.00 2.18 117 32 M 5 20X ASME+ 0.00 4.83 123 29 M 5 10ZGROOV+ 0.00 M 5 CURVE 5:SP1=60;SP2=42;SP3=20 2.51 67 60 M 5 60%ASME + 0.00 2.11 97 42 M 5 42X ASME+ 0.00 2 .18 117 20 M 5 20% ASME+ 0.00 4.83 123 <20 M 5 10ZGROOV+ 0.00 RUN 9:SAVES-100/1;81/3;60/3;42/1

20/3/10/0 SUPPRESSIONS

TSP /1 ; 4M ONT I 1 490 999 0.48 211 RES M 5 4M DENT+ 0.00 ** 490 999 M 5 CURVE 1 :SP1=100;SP2=60;5Pp=20 2.18 39 100 *M 5 100XASME+ 0.00 2.86 39 100 M 5 81X ASME+ 0.00 2.89 62 60 M 5 60%ASME + 0.00 2.38 92 32 M S 42Z ASME+ 0.00 2.48 113 20 M 5 20X ASME+ 0.00 5.43 118 <20 M 5 10%GROOV+ 0.00 M 5 CURVE 2: SP1=81;SP2=60;SP3=20 2 86 39 81 M 5 81% ASME+ 0.00 2.89 62 60 M 5 60%ASME + 0.00 2.38 92 35 M 5 42X ASME+ 0.00 2.48 112 20 M 5 20Z ASME+ 0.00 5.43 118 <20 M 5 10XGROOV+ 0.00* M 5 CURVE 3: SP1=81 ;SP2=42;SP3=20 2.88 39 80 M*5 81% ASME+ 0.00 2.88 63 65 M 5 60%ASME + 0.00 2.39 91 42 M 5 42% ASME+ 0.00 2.48 112 21 M 5 20% ASME+ 0.00 5.42 118 <20 M 5 10%6ROOV+ 0.00 M 5 CURVE 4: SP1=81 ;SP2=60;SP3=42 2.88 39 81 M 5 ASME+ 0.00 2.88 63 60 M 5 60%ASME + 0.00 2.39 91 42 M 5 42% ASME+ 0.00 2.48 112 31 M 5 20% ASME+ 0.00 5.42 118 28 M 5 10%GROOV+ 0.00 M 5 CURVE 5: SP1=60;SP2=42;5P3=20

  • 2.88 63 60 M 5 60%ASME + 0.00 2.39 91 42 M 5 42% ASME+ 0.00 LEVEL Page 8 of' 27
  • PLANT UNIT SIG LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01 /30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 2.48 112 . 20 M 5 20% ASME+ 0.00 5.42 118 <20 M 5 107.GROOV+

0.00 RUN 10: SAVES=100/l

81/3;60/3;42/3;20/3;10/1 490 9"99 0.54 251 RES M 5 4M DENT+ 0.00 490 999 M 5 CURVE 1
SP1=100;SP2=60;SP3=20 2.44 40 100 M 5 1007.ASME+

0.00 3.20 40 100 M 5 81% ASME+ 0.00 3.26 61 60 M 5 607.ASME + 0.00 2.60 87 -? ;) ... M 5 42% ASME+ 0.00 2.47 106 20 M 5 20% ASME+ 0.00 5.30 111 <20 M 5 107.GROOV+ 0.00 M 5 CURVE 2: SP1=81 ;SP2=60;SP3=20 3.20 40 81 M 5 81% ASME+ 0.00 3.26 61 60 M 5 607.ASME + 0.00 2.60 87 36 M 5 42% ASME+ 0.00 2.47 106 20 M 5 20% ASME+ 0.00 5.30 111 <20 M 5 107.GROOV+ 0.00

  • M 5 CURVE 3: SP1=81 ;SP2=42;SP3=20 3.20 40 81 M 5 81% ASME+ 0.00 3.26 61 66 M 5 60%ASME + 0.00 2.60 88 42 M 5 427. ASME+ 0.00 2.47 106 20 M 5 20% ASME+ 0.00 5.30 111 <20 M 5 10%GROOV+

0.00 M 5 CURVE 4: SP1=81 ;SP2=60;SP3=42 3.20 40 81 M 5 817. ASME+ 0.00 3.26 62 60 M 5 607.ASME + 0.00 2.60 87 42 M 5 427. ASME+ 0.00 2.47 106 31 M 5 20% ASME+ 0.00 5.30 111 28 M 5 107.GROOV+ 0.00 M 5 CURVE 5: SP1=60;SP2=42;5P3=20 3.26 61 60 M 5 607.ASME + 0.00 2.61 87 42 M 5 42% ASME+ 0.00 3.26 61 60 M 5' 607.ASME + 0.00 2.61 87 42 M 5 427. ASME+ 0.00 2.47 106 20 M 5 20% ASME+ 0.00 5.30 111 <20 M 5 107.GROOV+ 0.00 RUN 11: SAVES: 100/0;81 /1 ;60/1 ;42/1;20/1i10/ 1 SUPP: TSP/1; 4M ONT I 1 1 490 999 0.58 228 RES M 6 4M DENT+ 0.00 ** 490 999 M 6 CURVE 1: SP1=100;5P2=60;5P3=20

2. 96 41 100 M 6 100%ASME+

0.00 LEVEL Page 9 of 27

  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-i8 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 3.92 40 97 M 6 81% ASME+ 0.00 4.15 55 60 M 6 60%ASME + 0.00 3.25 77 31 M 6 42% ASME+. 0.00 3.10 94 20 M 6 20% ASME+ 0.00 6.63 100 <20 M 6 10%GROOV+

0.00 M 6 CURVE 2: SP1=81; SP2=60;SP3=20 3.92 40 81 M 6 81% ASME+ 0.00 4.15 55 60 M 6 60%ASME + 0.00 3.25 77 35 M 6 427. ASME+ 0.00 3.10 94 20 M 6 20% ASME+ 0.00 3.10 94 20 M 6 20% ASME+ 0.00 6.63 100 <20 M 6 10%GROOV+ 0.00 M 6 CURVE 3: SP1=81 ;SP2=42;SP3=20

3. 92 40 80 M 6 81% ASME+. 0.00 4.15 SS 66 M 6 60%ASME + 0.00 3.2S 77 41 M 6 42% ASME+ 0.00 3.10 94 <20 M 6 20% ASME+ 0.00 6.63 100 <20 M 6 10%GROOV+

0.00 . M 6 CURVE 4: SPl=Bl 1 SP2=60;SP3=42 3.92 40 81 M 6 81% ASME+ 0.00 !. 4. lS SS 60 M 6 60%ASME + 0.00 3.25 77 42 M 6 42% ASME+ 0.00 3.10 94 33 M 6 204 ASME+ 0.00 6.63 100 30 M 6 10%GROOV+ 0.00 M 6 CURVE 5: SP1=60;SP2=42;SP3=20* 4.15. 55 59 M 6 60%ASME + 0.00 3.25 77 41 M 6 42% ASME+ 0.00 3.10 94 <20 M 6 20% ASME+ 0.00 6.63 100 <20 M 6 107.GROOV+ 0.00 RUN 12: SAVES-100/0;81 /1 ;60/1 ;42/1;20/3;10/1 SUPPRESSIONS: TSP/1; 4M DNT/1 490 999 0.62 226 RES M 6 4M DENT+ 0.00 490 999 M 6 CURVE 1: SP1=100;SP2=60;SP3=20 3.20 40 100 M 6 1004ASME+ 0.00 4.2S 40 100 M 6 817. ASME+ 0.00 4.49 54 59 M 6 607.ASME + 0.00 3;59 76 31 M 6 42Y. ASME+ 0.00 3.47 98 <20 M 6 207. ASME+ 0.00 7.46 100 <20 M 6 107.GROOV+ 0.00 M 6 CURVE 2: SP1=81;SP2=60;SP3=20 4.2S 39 81 M 6 81% ASME+ 0.00 4.49 55 58 M 6 60%ASME + 0.00 3.S8 7.6 3S M 6 427.ASME + 0.00

  • 3.47 94 20 M 6 20% ASME+ 0.00 7.46 100 <20 M 6 107.GROOV+

0.00 LEVEL Page 10 of 27

  • PLANT UNIT SIG LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 M 6 CURVE 3: SPl =81; SP2=42; SP3=20 4.25 40 81 M 6 81% ASME+ 0.00 4.49 56 66 M 6 60%ASME + 0.00 3.58 79 42 M 6 42% ASME+ 0.00 3.47 96 20 M 6 20% ASME+ 0.00 7.46 101 <20 M 6 10%GROOV+

0.00 M 6 CURVE 4: SPl =81; SP2=60;SP3=42 4.25 40 81 M 6 81% ASME+ 0.00 4.49 56 60 M 6 607.ASME + 0.00 3.58 79 42 M 6 42% ASME+ 0.00 3.47 96 33 M 6 20% ASME+ 0.00 7.46 101 31 M 6 10%GROOV+ 0.00 M 6 CURVE 5: SP1=60;SP2=42;SP3=20 4.50 56 60 M 6 60%ASME + 0.00 3.58 79 42 M 6 427. ASME+ 0.00 3.47 96. 20 M 6 207. ASME+ 0.00 I 7.46 102 <20 M 6 10%GROOV+ 0.00 0.34 0 RES M 6 4M DENT+ 0.00 I RUN 13: SAVES-100/3;81 /1 ;60/1 ;42/1;20/3;10/1 .

  • SUPPRESSIONS:

TSP/1; 4M DNT/1 I I 1 490 999 M 6 CURVE 1:SP1=100;SP2=60;SP3=20 1 .97 40 100 M 6 100%ASME+ 0.00 2.52 41 97 M 6 817. ASME+ 0.00 2.13 68 58 M 6 607.ASME + 0.00 1.62 107 30 M 6 42% ASME+ 0.00 1.67 131 <20 M 6 207. ASME+ 0.00 3.68 137 <20 M 6 107.GROOV+ 0.00 M 6 CURVE 2: SPl=Bl ;SP2=60;SP3=42 2.52 40 Bl M 6 817. ASME+ 0.00 2. 13 66 60 M 6 607.ASME + 0.00 1. 62 106 33 M 6 42% ASME+ 0.00 1.67 129 20 M 6 20% ASME+ 0.00 3.68 136 <20 M*6 10%GROOV+ 0.00 M 6 CURVE 3: SP1=Bl;SP2=42;SP3=20 2.52 40 81 M 6 81% ASME+ 0.00 2.13 66 68 M 6 60%ASME + 0.00 1.62 106 42 M 6 427. ASME+ 0.00 1.67 130 <20 M 6 20% ASME+ 0.00 3.68 136 <20 M 6 107.GROOV+ 0.00 M 6 CURVE 4: SPl=Bl ;SP2=60;SP3=42 2.52 40 81 M 6 81% ASME+ 0.00 2.13 66 60 M 6 601.ASME + 0.00 1 .62 106 42 M 6 42% ASME+ 0.00 1.67 130 35 M 6 20% ASME+ 0.00

  • 3.68 136 33 M 6 107.GROOV+

0.00 M 6 CURVE 5: LEVEL Page 11 of 27

  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01 /30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 2. 13 66 59 M 6 607.ASME + 0.00 1 .62 106 42 M 6 427. ASME+ 0.00 1 .67 130 <20 M 6 207. ASME+ 0.00 3.68 136 <20 M 6 10%GROOV+

0.00 RUN 14: SAVES-100/3;81/1;60/3;42/1

20/3;10/1 SUPPRESS IONS
TSP/1; 4M ONT/1 490 999 0.36 272 RES M 6 4M DENT+ 0.00 490 999 M 6 CURVE 1: SP1=100;SP2=60;SP3=20
1. 79 39 100 M 6 1007.ASME+

0.00 2.30 41 97 M 6 81% ASME+ 0.00 2.02 72 62 M 6 607.ASME + 0.00 1.65 108 34 M 6 42% ASME+ 0.00 1.65 128 21 M 6 20% ASME+ 0.00 3.59 134 <20 M 6 107.GROOV+* 0.00 M 6 CURVE 2: SP1=81; SP2=60;SP3=20 2.30 41 81 M 6 817. ASME+ 0.00 ** 2.02 72 61 M 6 607.ASME + 0.00 1.65 109 36 M 6 427. ASME+ 0.00 1.65 128 22 M 6 207. ASME+ 0.00 3.59 134 <20 M 6 107.GROOV+ 0.00 M 6 CURVE 3*: SP1=81 ;SP2=42;SP3=20 _2 .30 41 80 M 6 817. ASME+ 0.00 2.02 72-67 M 6 607.ASME + 0.00 1.65 108 41 M 6 427. AS-ME+ 0.00 1. 65 128 <20 M 6 207. ASME+ 0.00 3.59 134 <20 M 6 107.GROOV+ 0.00 M 6 CURVE 4: SP1=81 ;SP2=60;SP3=42 2;30 41 81 M 6 817. ASME+ 0.00 2.02 72 60 M 6 607.ASME + 0.00 1.64 109 42 M 6 427. ASME+ 0.00 1.65 128 34 M 6 20% ASME+ 0.00 3.59 134 32 M 6 10%GROOV+ 0.00 M 6 CURVE 5: SP1=60;SP2=42;SP3=20 2.02 72 60 M 6 607.ASME + 0.00 1.65 108 42 M 6 42% ASME+ 0.00 1.65 128 20 M 6 207. ASME+ 0.00 3.59 134 <20 M 6 107.GROOV+ 0.00 RUN 15: SAVES-100/3;81/3;60/3;42/l

20/3;10/1 SUPPRESSIONS

TSP/1; 4M DNT/1 490 999 0.46 274 RES M 6 4M DENT+ 0.00

  • 490 999 M 6 CURVE 1: SP1=100;SP2=60;SP3=20 LEVEL Page 12 of 27
  • PLANT UNIT SIG LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 1 490 999 2 .10 40 . 99 M 6 100%ASME+

0.00 2.70 41 98 M 6 81% ASME+ 0.00 2.52 70 59 M 6 60%ASME + 0.00 2.06 103 31 M 6 42% ASME+ 0.00 2.02 122 20 M 6 20% ASME+ 0.00 4.37 128 <20 M 6 10Y.GROOV+ 0.00 M 6 CURVE 2: SP1=81 ;SP2=60;SP3=20 2.70 40 81 M 6 817. ASME+ 0.00 2.52 68 60 M 6 60%ASME + 0.00 2.06 100 35 M 6 42Y. ASME+ 0.00 2.01 120 20 M 6 20% ASME+ 0.00 4.37 125 <20 M 6 10%6ROOV+ 0.00 M 6 CURVE 3: SP1=81 ;SP2=42;SP3=20 2.70 40 81 M 6 81% ASME+ 0.00 2.52 68 66 M 6 60%ASME + 0.00 2.06 100 42 M 6 42% ASME+ 0.00 2.01 120 20 M 6 207. ASME+ 0.00 4.37 125 <20 M 6 10Y.GROOV+ 0.00 M 6-CURVE 4: SP1=81 ;SP2=60;SP3=42 2.70 40 81 M 6 81% ASME+ 0.00

  • 2.52 68 60 M 6 60%ASME + 0.00 2.06 100 42 M 6 42% ASME+ 0.00 2.01 120 33 M 6 20% ASME+ 0.00 4.37 -125 30 M 6 10%GROOV+

0.00 M 6 CURVE 5: SP1=60;SP2=42;SP3=20 2.52 68 60 M 6 60%ASME + 0.00 2.06 100 42 M 6 427. ASME+ 0.00 2.01 120 20 M 6 20% ASME+ 0.00 4.37 125 <20 M 6 10%GROOV+ 0.00 RUN 16: SAVES-100/3;81/3;60/3;42/3;20/3;10/1 SUPPRESSIONS-TSP/I 1 4M DNT/1 490 999 0.47 0 RES M 6 4M DENT+ 0.00 490 999 M 6 CURVE 1: SP1=100;SP2=60;5P3=20 2 .16 39 100 M 6 100%ASME+ 0.00 2.75 41 96 M 6 81% ASME+ 0.00 2.56 71 60 M 6 60%ASME + 0.00 2.12 105 31 M 6 42% ASME+ 0.00 2.07 122 20 M 6 207. ASME+ 0.00 4.45 127 <20 M, 6 10%GROOV+ 0.00 M 6 CURVE 2: SP1=81;SP2=60;5P3=20 2.75 40 81 M 6 81% ASME+ 0.00 2.56 70 60 M 6 607.ASME + 0.00 2 .12 104 34 M 6 42% ASME+ 0.00 ** 2.06 122 20 M 6 20% ASME+ 0.00 4.45 126 <20 M 6 10%GROOV+ 0.00 LEVEL Page 13 of 27

  • PLANT UNIT SIG LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 M 6 CURVE 3: SP1=81 ;SP2=42;SP3=20 2.75 40 81 M 6 81% ASME+ 0.00 2.56 70 67 M 6 60Y.ASME + 0.00 2. 12 104 42 M 6 42Y. ASME+ 0.00 2.06 122 20 M 6 20% ASME+ 0.00 4.45 126 <20 M 6 107.GROOV+

0.00 M 6 CURVE 4: SP1=81 ;SP2=60;SP3=42 2.75 40 80 M 6 817. ASME+ 0.00 2.56 70. 59 M 6 607.ASME .+ 0.00 2.12 104 41 M 6 42% ASME+ 0.00 2.06 122 34 M 6 207. ASME+ 0.00 4.45 126 32 M 6 107.GROOV+ 0.00 M 6 CURVE 5: SP1=60;SP2=42;SP3=20 2.56 70 60 M 6 607.ASME.+ 0.00 2. 12 104 42 M 6 42% ASME+ 0.00 2.06 122 20 M 6 20% ASME+ 0.00 4.45 126 <20 M 6 107.GROOV+ 0.00 RUN 17: SAVES-100/3;81/1

60/1 ;42/1;20/1
10/1 "* SUPPRESSIONS

TSP 11 ; 4M DNT/1 490 999 0.39 216 RES M 6 4M DENT+ 0.00 490 999 M 6 CURVE 1: SP1=100;SP2=60;SP3=20 1.89 40 100 M 6 1007.ASME+ 0.00 2.38 41 97 M 6 81Y. ASME+ 0.00 2.04 66 59 M 6 607.ASME + 0.00 1 .50 105 30 M 6 42Y. ASME+ 0.00 1.56 129 20 M 6 20% ASME+ 0.00 3.45 136 <20 M 6 10Y.GROOV+ 0.00 M 6 CURVE 2: 2.42 40 81 M 6 81% ASME+ 0.00 2.04 65 59 M 6 607.ASME + 0.00 1.50 103 33 M 6 427. ASME+ 0.00 1.55 127 <20 M 6 207. ASME+ 0.00 3.45 135 <20 M 6 107.GROOV+ 0.00 M 6 CURVE 3: 2.43 40 80 M 6 81Y. ASME+ 0.00 2.04 65 67 M 6 607.ASME + 0.00 1.52 102 41 M 6 42Y. ASME+ 0.00 1.56 128 <20 M 6 207. ASME+ 0.00 3.45 134 <20 M 6 10Y.GROOV+ 0.00 M 6 CURVE 4: SP1=81;SP2=60;SP3=42 2.43 40 81 M 6 81Y. ASME+ 0.00 2.04 65 60'M 6 607.ASME + 0.00

  • 1 .52 102 42 M6 42% ASME+ 0.00 1.56 128 33 M 6 20% ASME+ 0.00 LEVEL Page 14 of 27
  • PLANT UNIT S/6 LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG I. CH# LOCATION EXTENT 490 999 3.45 134 32 M 6 10%GROOV+

0.00 M 6 CURVE 5: SP1=60;SP2=42;SP3=20 2.04 65 59 M 6 60%ASME + 0.00 1.52 102 41 M 6 42% ASME+ 0.00 1 .56 128 <20 M 6 20% ASME+ 0.00 3.45 134 <20 M 6 10%GROOV+ 0.00 RUN 18: SAVES-t00/6;81/1

60/1 ;42/1 ;20/1 ;10tl SUPPRESSIONS

TSP/1; 4M DNT/1 490 999 0.34 0 RES M 6 4M DENT+ 0.00 490 999 M 6 CURVE I: SP1=100;SP2=60;SP3=20

1. 92 40 99 M 6 100%ASME+

0.00 2.45 41 97 M 6 81% ASME+ 0.00 1. 93 65 59 M 6 60%ASME + 0.00 1. 36 108 30 M 6 42% ASME+ 0.00 1.43 136 20 M 6 20% ASME+ 0.00 3.22 143 <20 M 6 10%GROOV+ 0.00 M 6 CURVE 2: SP1=81; SP2=60;SP3=20

i. 2.45 40 80 M 6 81% ASME+ 0.00 1. 93 64 59 M 6 60%ASME + 0.00 1.36 107 33 M 6 42% ASME+ 0.00 1.44 136 <20 M 6 20% ASME+ 0.00 3.22 142 <20 M 6
  • 1 0%GROOV+ 0.00 M 6 CURVE 3: SP1=81; SP2=42; SP3=20 2.45 40 81 M 6 81% ASME+ 0.00 1. 93 64 68 M 6 60%ASME + 0.00 1. 36 107 42 M 6 42% ASME+ 0.00 1 .44 136 20 M 6 20% ASME+ 0.00 3.22 1"42 <20 M 6 10%GROOV+

0.00 M 6 CURVE 4: SP1=81; SP2=60;SP3=42 2.45 40 80 M 6 BlY. ASME+. 0.00 1. 93 64 60 M 6 60%ASME + 0.00 1.36 107 41 M *6 42% ASME+ 0.00 1.44 136 35 M 6 20% ASME+ 0.00 3.22 142 34 M 6 10%GROOV+ 0.00 M 6 CURVE 5: SP1=60; SP2=42; SP3=20 1. 93 64 60 M 6 60%ASME + 0.00 1.36 107 42 M 6 42% ASME+ 0.00 1.44 136 20 M 6 20% ASME+ 0.00 3.22 142 <20 M 6 10%GROOV+ 0.00 NOTE: HEREAFTER, ONLY CURVE 1 TO ESTABLISH PHASE SPREADS RUN 19: SAVES-100/6;81/1

60/3;42/1;20/1
10/1 ** 1 490 999 0.39 0 RES M 6 4M DENT+ 0.00 LEVEL Page 15 of 27
  • P.LANT UNIT SIG LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01 /30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 1 490 999 M 6 CURVE 1: SP1=100; SP2=60; SP3=20 1. 62 40 100 M 6 100%ASME+

0.00 2.04 42 96 M 6 817. ASME+ 0.00 1 .65 70 59 M 6 607.ASME + 0.00 1 .28 112 30 M 6 427. ASME+ 0.00 1 .33 136 <20 M 6 207. ASME+ 0.00 2.97 141 <20 M 6 107.GRODV+ 0.00 RUN 20: SAVES-100/6;81/1

60/6;42/1
20/1 ;10/1 SUPPRESSIONS

TSP/ 1; 4M DNT/1 490 999 0.40 158 RES M 6 4M DENT+ 0. 00 490 999 1. 49* 40 99 M 6 1 01i'J%ASME+ 0.00 1 .87 43 95 M 6 817. ASME+ 0. 00 1. 57 76 59 M 6 607.ASME + 0.00 1.31 116 30 M 6 427. ASME+ 0.00 1 .34 135 <20 M 6 207. ASME+ 0.00 2.95 141 <20 M 6 107.GROOV+ 0.00 ** RUN 21: SAVES-100/6;81/l

60/6;42/1;20/3;10/l SUPPRESSIONS-TSP/!; 4M DNT/1 RUN 21
SAVES-100/6;81/l
60/6;42/l
20/3;10/1 490 999 0.41 159 RES M 6 4M DENT+ 0.00 490 999 M 6 CURVE 1
SP1=100;SP2=60;SP3=20 1 .48 40 100 M 6 1007.ASME+

0.00 1. 87 42 97 M 6 81% ASME+ 0.00 1.58 75 60 M 6 607.ASME + 0.li'l0 1 .31 115 30 M 6 42% ASME+ 0.00 1.33 134 20 M *6 207. ASME+ li'J.li'l0 2.95 140 <20 M 6 10/.GROOV+ 0.00 RUN 22: SAVES-

60/6;42/l
20/6;10/l SUPPRESSIONS

TSP/1; 4M ONT/ l 490 999 0.54 16.1 RES M 6 4M DENT+ 0.00 490 999 M 6 CURVE 1: SP1=100; SP2=60; SP3=20 1 .86 40 100 M 6 100%ASME+ 0.00 2.35 43 95 M 6 81% ASME+ 0.00 1. 98 75 60 M 6 60/.ASME + 0.00 ** 1. 62 114 31 M 6 427. ASME+ 0.00 1. 70 136 <20 M 6 207. ASME+ 0.00 LEVEL Page 16 of 27

  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 3.76 141 <20 M 6 10%GROOV+

0.00* RUN 23: SAVES-100/4;81/1

60/1 ;42/1 ;20/4;10/1 SUPPRESSIONS-TSP/1; 4M ONT/ 1 490 999 0.40 5 RES M 6 4M DENT+ 0.00 490 999 M 6 CURVE I
SP1 =100; SP2=60;SP3=20 2.09 40 100 M 6 100%ASME+

0.00 2.69 41 97 M 6 811. ASME+ 0.00 2.21 66 59 M 6 601.ASME + 0.00 1. 63 107 30 M 6 42% ASME+ 0.00 1. 75 134 <20 M 6 20% ASME+ 0.00 3.86 140 <20 M 6 10%GROOV+ 0.00 RUN 24: SAVES-100/5;81/1

60/1 ;42/1 ;20/5;10/1 SUPPRESSIONS-TSP/1; 4M ONT I 1 1 490 999 0.44 2 RES M 6 4M DENT+ 0.00 2.20 38 99 M 6 100%ASME+

0.00

  • 2.82 39 97 M 6 81% ASME+ 0.00 2.30 63 59 M 6 60%ASME + 0.00 1.65 106 30 M 6 42% ASME+ 0.00 1. 79 134 20 M 6 20% ASME+ 0.00 4.01 142 <20 M 6 10%GROOV+

0.00 RUN ZS: SAVES-100/5;81/1

60/2;42/1
20/5;10/1 SUPRESSIONS-TSP/1; 4M ONT I I 490 999 0.45 359 RES M 6 4M DENT+ 0.00 490 999 M 6 CURVE 1

2.04 39 100 M 6 100%ASME+ 0.00 2.62 41 96 M 6 81% ASME+ 0.00 2. 16 67 60 M 6 60%ASME + 0.00 1.64 108 31 M 6 42% ASME+ 0.00 1. 75 135 20 M 6 20% ASME+ 0.00 3.89 141 <20 M 6 10%GROOV+ 0.00 RUN 26: SAVES-100/3;81/1

60/I ;42/1 ;20/3;10/1 SUPPRESSIONS-TSP/1; 4M ONT/I 1 490 999 0.41 228 RES M 6 4M DENT+ 0.00 M 6 CURVE I
SP1=100; SP2=60; SP3=20 1. 99 40 100 M 6 100%ASME+

0.00 2.57 41 97 M 6 811. ASME+ 0.00 2. 19 65' 60 M 6 60%ASME + 0.00

  • 1. 64 104 30 M 6 42% ASME+ 0.00 1. 69 130 20 M 6 20% ASME+ 0.00 LEVEL Page 17 of 27
  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 3.76 136 <20 M 6 10%GROOV+

0.00 RUN 27: SAVES-100/4;81/1

60/2;42/l
20/4;10/l SUPPRESSIONS

TSP/1; 4M D/1 1 490 999 0.40 216 RES M 6 4M Df::NT+ 0.00 M 6 CURVE 1: SP1=100; SP2=60; SP3=20 1 .90 40 100 M 6 100'7.ASME+ 0.00 2.44 41 97 M 6 81'7. ASME+ 0.00 2.03 66 61 *M 6 60'7.ASME + 0.00 1.47 106 31 M 6 42% ASME+ 0.00 1.48 132 <20 M 6 20% ASME+ 0.00 3.27 138 <20 M 6 10'7.GROOV+ 0.00 RUN 28:

42/1 ;20/3;10/1 SUPPRESSIONS

TSP/1; 4M DNT/1 1 490 999 0.25 169 RES M 6 4M DENT+ 0.00 M 6 CURVE 1: SP1=100; SP2=60;SP3=20 2.03 40 100 M 6 100'7.ASME+ 0.00 ; *. 2.61 41 97 M 6 81'7. ASME+ 0.00 2.21 67 60 M 6 60'7.ASME + 0.00 1.67 105 31 M 6 42% ASME+ 0.00 1. 74 131 <20 M 6 20'7. ASME+ 3.83 136 <20 M 6 10'7.GROOV+ 0.00 RUN 29: SAVES-100/4181/1;60/1

42/1 ;20/4;10/1 SUPPRESSIONS-TSP/1;4M DNT/1 1 490 999 0.40 231 RES M 6 4M DENT+ 0.00 M 6 CURVE 1
SP1=100; SP2=60; SP3=20 2 .10 40 100 M 6 100'7.ASME+

0.00 2.70 41 97 M 6 81% ASME+ 0.00 2.21 66 60 M 6 60'7.ASME + 0.00 1 .64 108 30 M *6 42'7. ASME+ 0.00 1. 75 135 20 M 6 20'7. ASME+ 0.00 3.87 141 <20 M 6 10'7.GROOV+ 0.00 RUN 30: SAVES-100/4;81/1;60/2;42/1

20/4;10/1 SUPPRESSIONS-TSP/1; 4M DNT/1 1 490 999 0.23 174 RES M 6 4M DENT + 0.00 M 6 CURVE 1
SP1=100; SP2=60; SP3=20 1. 95 40 100 M 6 100%ASME+

0.00 2 .5,1 41 98 M 6 81% ASME+ 0.00 2.09 69 60 M 6 60%ASME + 0.00 1 .63 108 31 M 6 42% ASME+ 0.00

  • 1. 70 133 <20 M 6 20% ASME+ 0.00 3.74 139 <20 M 6 107.GROOV+

0.00 LEVEL Page 18 of 27

  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 11 11 01 /30/89" ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT RUN 31: SAVES-100/5;81/1
60/2;42/1
20/5;10/1 SUPPRESSIONS-TSP/1; 4M DNT/1 1 490 999 0.43 4 RES 4M SEN T +0.00 M 6 CURVE 1
SP1=100; SP2=60;SP3=20 2.00 40 100 M 6 100%ASME+

0.00 2.56 41 98 M 6 81% ASME+ 0.00 2.10 69 60 M 6 60%ASME + 0.00 1. 61 111 30 M 6 42% ASME+ 0.00 1. 70 136 20 M 6 20% ASME+ 0.00 3.76 142 <20 M 6 10%GROOV+ 0.00 RUN 32: SAVES-100/6;81/1

60/2;42/1;20/6;10/1 SUPPRESSIONS-TSP/1; 4M DNT/1 1 490 999 0.28 175 RES M 6 4M DENT+ 0.00 M 6 CURVE 1
SP1=100; SP2=60; SP3=20 2.09 40 99 M 6 100%ASME+

0.00 2.66 42 96 M 6 81% ASME+ 0.00 2 .14 69 59 M 6 60%ASME + 0.00

  • 1.62 112 30 M 6 42% ASME+ 0.00 1. 74 139 20 M 6 20% ASME+ 0.00 3.88 145 <20 M 6 i0%GROOV+

0.00 CONTINUED ON DISC 25

  • LEVEL
  • * * ------------------------------------------

PLANT UNIT S/6 LE6 REEL TO REEL DATE MIZ-18 QUAL DZS NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DE6 % CH# LOCATION EXTENT 1 490 999 1 490 999 1 490 999 1 490 999 UNT MIZ-18 QUALIFICATION ANL B.CURTIS III DAT 3/08/89 REL #11 MIZ18 QUAL OSK 2S PRB 580 SLF NEW.MIX PARAMETRIC STUDY (CONTINUED) RUN 33: SAVE?-100/6;81/1;60/3;42/1;20/6;10/1 SUPPRESSIONS-TSP/1; 4M DNT/1 0.48 3 RES M 6 4M DENT+ 0.00 M 6 CURVE 1: SP1=100;SP2=60;SP3=20

1. 97 40 100 M 6 1007.ASME+

0.00 2.52 41 98 M 6 81% ASME+ 0.00 2.06 71 59 M 6 607.ASME + 0.00 1. 61 113 30 M 6 42% ASME+ 0.00 1. 71 137 <20 M 6 20% ASME+ 0.00 3. 77 143 <20 M 6 10%6ROOV+ 0.00 RUN 34: SAVES-100/7;81/1

60/3;40/1;20/7;10/1 SUPPRESSIONS-TSP/1; 4M D/1 0.51 2 RES M 6 4M DEMT + 0.00 M 6 CURVE 1
SP1=100SP2=60;SP3=20 2.05 40 99 M 6 1007.ASME+

0.00 2.61 42 96 M 6 81% ASME+ 0.00 2.09 71 59 M 6 607.ASME + 0.00 1.62 113 31 M 6 42% ASME+ 0.00 1. 73 140 20 M 6 20% ASME+ 0.00 3.85 145 <20 M 6 10%6ROOV+ 0.00 RUN 35: SAVES-100/8;81/1

60/3/;40/1
20/8;10/1 SUPPRESSIONS-TSP/1; 4M 0/1 0.56 4 RES M 6 4M DENT+ 0.00 M 6 CURVE 1
SP1=100; SP2=60; SP3=20 2. 12 40 100 M 6 1007.ASME+

0.00 2.70 42 96 M 6 81% ASME+ 0.00 2.15 71 60 M 6 60%ASME + 0.00 1.64 115 30 M 6 42% ASME+ 0.00 1. 78 141 20 M 6 20% ASME+ 0.00 3.97 146 <20 M 6 10%GROOV+ 0.00 RUN 36: SAVES-100/8;81/1

60/3;40/1;20/8;10/1 SUPPRESSIONS

TSP/1; 4M DNT/2 0.35 184 RES M 6 4M DENT+ 0.00 LEVEL Page 19 of 27

  • *
  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL 025 NA NA NA 11 11 01/30/89 ST IN-RUN 490 999 1 490 999 1 490 999 1 490 999 VOLTS DEG ., CH# LOCATION EXTENT ,. M 6 CURVE 1: SPl =100; SP2=60;SP3=20 1 ."87 40 99 M 6 100%ASME+

0.00 2 .40 41 97 M 6 81% ASME+ 0.00 1. 91 68 59 M 6 60%ASME + 0.00 1.44 112 30 M 6 42% ASME+ 0.00 1.58 138 <20 M 6 20% ASME+ 0.00 3.54 144 <20 M 6 107.GROOV+ 0.00 RUN 37: MIX IS 400-600-100-10 SAVES: 100/3/81/1

60/1 ;40/1;20/3;10/1 SUPPRESS IONS
TSP/1; 4M DNT/1 0.45 287 RES M 7 4M DENT+ 0.00 M 7 CURVE 1: SP1=100;SP2=60;SP3=20 2.81 40 100 M 7 1007.ASME+

0.00 3.66 40 100 M 7 81% ASME+ 0.00 2.96 68 60 M 7 60%ASME + 0.00 2.25 108 31 M 7 42% ASME+ 0.00 2.37 135 20 M 7 207. ASME+ 0.00 5.25 139 <20 M 7 10%GROOV+* 0.00 RUN 38: SAVES-100/6;81/1;60/3;42/1

20/6;10/1 SUPPRESSIONS

TSP/1; 4M D/1 0.66 167 RES M 7 4M DENT+ 0.00 M 7 CURVE 1: SP1=100; SP2=60;SP3=20 2.80 39 *99 M 7 100%ASME+ 0.00 3.64 40 98 M 7 81% ASME+ 0.00 2.86 68 59 M 7 60%ASME + 0.00 2.20 110 31 M 7 427. ASME+ 0.00 2.40 138 <20 M 7 20% ASME+ 0.00 5.44 143 <20 M 7 10%GROOV+ 0.00 RUN 39: SAVES-100/6;80/1';60/3;42/1

20/6;10/1 SUPPRESSIONS-TSP/1; 4M DNT/2 0.37 288 RES M 7 4M DENT+ 0.00 M 7 CURVE 1
SP1=100;SP2=60;SP3=20 2.47 40 100 M 7 100%ASME+

0.00 3.25 40 100 M 7 81% ASME+ 0.00 2.56 67 60 M 7 607.ASME + 0.00 1. 93 108 31 M 7 42% ASME+ 0.00 2 .14 138 20 M 7 20% ASME+ 0.00 4.87 143 <20 M 7 10%GROOV+ 0.00 RUN 40: 400-600-100-10 8MIL DENT SAVES: 100/3;81/1

60/1 ;42/1;20/3;10/1 SUPPRESSIONS-TSP/1; SM DNT/1 LEVEL Page 20 of 27
  • *
  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL D2S NA NA NA .11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 1 490 999 1 490 999 1 490 999 1 490 999 2;25 212 RES M 7 SM DENT+ 0.00 M 7 CURVE 1: SP1=100; SP2=60; SP3=20 2.88 40 1 00 M 7 100%ASME+

0.00 3.32 45 91 M 7 81% ASME+ 0.00 2.82 69 60 M 7 607.ASME + 0.00 2.23 10B 30 M 7 427. ASME+ .0 .00 2.59 130 20 M 7 20% ASME+ 0.00 5.82 135 <20 M 7 10%GROOV+ 0.00 RUN 41: SAVEs.:...100;E; 81Il;60/ 42/ 1 ; 20/3; 10/ L SUPPRESSIONS-TSP/1; SM DNT/2 1.61 211 RES M 7 8M DENT+ 0.00 M 7 CURVE 1 : SP1=100; SP2=60; SP3=20 2.39 39 100 M 7 100%ASME+ 0.00 2.88 42 93 M 7 81% ASME+ 0.00 2.4B 65 60 M 7 607.ASME + 0.00 1. 99 10;3 30 M 7 42% ASME+ 0.00 2.39 124 20 M 7 207. ASME+ 0.00 5.45 129 <20 M 7 107.GROOV+ 0.00 RUN 42: SAVES-SUPPRESSIONS: TSP/ 1; SM DNT/2 1. 91 211 RES M 7 BM DENT+ 0.00 M 7 CURVE 1: SP1=100;SP2=60;SP3=20 2.53 40 100 M 7 1007.ASME+ 0.00 2.93 43 93 M 7 81% ASME+ 0.00 2.39 67 59 M 7 607.ASME + 0.00 1 .BB 109 29 M 7 427. ASME+ 0.00 2.2B 132 <20 M 7 20% ASME+ 0.00 5.22 13B <20 M 7 107.GROOV+ 0.00 RUN 43: SAVES-100/§;Sl/1;60/3;42/1;20/6;10/1 SUPPRESSIONS-TSP/1; BM DNT/2 1.85 205 RES M 7 BM DENT+ 0.00 M 7 CURVE 1: SP1=100; SP2=60'; 2.40 40 100 M 7 100%ASME+ 0.00 2.75 43. 94 M 7 Bl% ASME+ 0.00 2.31 69 60 M 7 60%ASME + 0.00 1 .B6 111 29 M 7 ASME+ 0.00 2.23 132 20 M 7 20% ASME+ 0.00 5.05 137 <20 M 7 107.GROOV+ 0.00 RUN 44: SAVES-100/6;81/1;60/3;42/1

20/6;10/1 SUPPRESSIONS-TSP/I; BM DNT/3 LEVEL SP3=20 Page 21 of 27 Page 22 of 27 PLANT UNIT S/G LEG REEL TO REEL DATE
  • MIZ-18 QUAL D2S NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 1 490 999 1.55 208 RES M 7 BM DENT+ 0.00 M 7 CURVE 1: SP1=100;SP2=60;SP3=20 2.09 40 100 M 7 100%ASME+

0.21 2.48 44 92 M 7 81% ASME+ 0.00 2.13 67 60 M 7 60%ASME + 0.00 1. 72 107 29 M 7 42% ASME+ 0.00 2.07 128 20 M 7 20% ASME+ 0.00 4.70 133 <20 M 7 10%6ROOV+ 0.00 RUN 45: 400-600-100 11 MIL DENT SAVES-100/3;81/1

60/1;42/1
20/3;10/1 SUPPRESSIONS-TSP/1; 11 M DENT /1 490 999 1 .32 200 RES M 7 11 M DENT+ 0.00 490 999 M 7 CURVE 1
SP1=100;SP2=60;SP3=20 1.54 40 100 M 7 100%ASME+

0.00 1. 85 43 94 M 7 817. ASME+ 0.00 1.56 70 60 M 7 607.ASME + 0.00 1.29 108 31 .M 7 427. ASME+ 0.00

  • 1.54 130 20 M 7 20% ASME+ 0.00 3.32 131 <20 M 7 107.GROOV+

0.00 RUN 46: SAVES-100/3;81/1

60/1;42/1;20/3;10/1 SUPPRESSIONS-TSP/1; 11M DNT/2 1 490 999 0.98 195 RES M*7 11 M DENT+ 0.00 1 490 999 M 7 CURVE 1
SP1=100;SP2=60; SP3=20 1.39 40 100 M 7 1007.ASME+

0.00 . 1. 71 41 98 M 7 81% ASME+ 0.00 1.54 67 60 M 7 607.ASME + 0.00 1.33 104 30 M 7 427. ASME+ 0.00 1.61 124 20 M 7 20% ASME+ 0.00 3.52 124 20 M 7 107.GROOV+ 0.00 RUN 47: SAVES-100/6;81/1

80/3;42/1;20/6;10/1 SUPPRESSIONS-TSP/1; 11 M ONT /2 490 999 1.14 205 RES M 7 11 M DENT+ 0.00 490 ggg M 7 CURVE 1
SP1=100;SP2=80;SP3=20 1.41 39 100 M 7 100%ASME+

0.00 1. 68 42 95 M 7 817. ASME+ 0.00 1 .40 72 60 M 7 60%ASME + 0.00 1.21 111 30 M 7 427. ASME+ 0.00

  • 1 .46 130 20 M 7 20% ASME+ 0.00 LEVEL
  • *
  • PLANT MIZ-18 ST IN-490 490 490 490 490 490 490 UNIT S/G LEG REEL TO REEL DATE QUAL 025 NA NA NA 11 11 01 /30/89 RUN VOLTS DEG ., CH# LOCATION EXTENT '* 999 999 999 999 999 999 999 3:14 131 <20 M 7 10%GROOV+

0.00 RUN 48: MIX IS 400-600-100-10 11M ONT SAVES-100/6;81/1

60/3;42/1
20/6;10/1 SUPPRESSIONS-TSP/1; 11M DNT/2 1. 18 205 RES M 7 1 lM DENT+ 0.00 M 7 CURVE 1
SP1=100;SP2=60;SP3=20 1 .48 40 100 M 7 1007.ASME+

0.00 1.81 43 94 M 7 817. ASME+ 0.00 1.50 69 60 M 7 607.ASME + 0.00 1.22 109 30 M 7 427. ASME+ 0.00 1.55 132 20 M 7 207. ASME+ 0.00 3.32 133 <20 M 7 107.GROOV+ 0.00 RUN 49: 400-600-200-10 15 MIL DENT SAVES-100/6;81/1;60/3/42/1

20/6;10/1 SUPPRESSIONS-TSP/1; 15M DNT/2 0.82 183 RES M B SUPPORT + 0.04 M 8 CURVE 1
SP1=100;SP2=60;5P3=20 0.77 38 100 M 8 1007.ASME+

0.00 1.03 39 97 M 8 817. ASME+ 0.00 1.08 63 60 M 8 607.ASME + 0.00 0.89 90 32 M 8 42% ASME+ 0.00 1.04 108 20 M 8 207. ASME+ 0.00 2.14 109 <20 M 8 107.GROOV+ 0.00 RUN 50: SAVES-100/9;81/1

60/6;42/1;20/9;10/1 SUPPRESSIONS-TSP/1; ISM DNT/2 0. 90 185 RES M 8 15M DENT+ 0.00 M 8 CURVE 1
SP1=100;SP2=60;5P3=20 0.79 40 100 M 8 1007.ASME+

0.00 1.03 41 98 M 8 81% ASME+ 0.00 1.05 69 59 M 8 607.ASME + 0.00 0.85 98 33 M 8 42% ASME+ 0.00 0.98 117 <20 M 8 20% ASME+ 0.00 2.05 116 20 M 8 10%GROOV+ 0.00 RUN 51: SAVES-100/9;81/1

60/6;42/1;20/9;10/1 SUPPRESSIONS-TSP/1; 15M DNT/3 1 490 999 0.74 187 RES M 8 15M DENT+ 0.00 LEVEL Page 23 of 27 *
  • ----Page 24 of 27 PLANT UNIT S/G LEG REEL TO REEL DATE
  • MIZ-18 QUAL D2S NA NA* NA 11 11 01/30/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 490 999 M 8 CURVE 1: SP1=100;SP2=60;SP3=20 0.72 40 100 M 8 100%ASME+

0.00 0.99 42 96 M 8 81% ASME+ 0.00 1 .04 66 60 M 8 60%ASME + 0.00 0.86 91 34 M 8 427. ASME+ 0.00 0.99 109 20 M 8 207. ASME+ 0.00 2.06 110 <20 M 8 107.GROOV+ 0.00 RUN 52: 400-600-100 ISM ONT SAVES-100/9;81/1;60/6;42/1;20/9;10/I SUPPRESSIONS-TSP/I; ISM DNT/3 490 999 0.82 186 RES M 7 ISM DENT+ 0.00 490 999 M 7 CURVE I: SP1=100;SP2=60;SP3=20

0. 72 40 100 M 7 100%ASME+

0.00 0.91 40 100 M 7 817. ASME+ 0.00 0.98 67 60 M 7 607.ASME + 0.00 0.90 92 30 M 7 427. ASME+ 0.00 1.07 103 20 M 7 20% ASME+ 0.00 2.32 104 <20 M 7 107.GROOV+ 0.00

  • RUN 53: 400-600-100-10 15M ONT SAVES-100/9;81/1;60/6;42/1120/9;10/1 SUPPRESSIONS-TSP/I; 15M DNT/3 490 999 0.78 18S RES.M 7 15M DENT+ 0.00 490 999 M 7 CURVE 1: SPl=l00; SP2=60; SP3=20* 0.75 40 100 M 7 1007.ASME+

0.00 1.07 39 97 M 7 81% ASME+ 0.00 1.14 61 59 M 7 607.ASME + 0.00 0.93 88 32 M 7 42{. ASME+ 0.00 1.08 107 <20 M 7 20% ASME+ 0.00 2.28 110 <20 M 7 107.GROOV+ 0.00

  • LEVEL Page 25 of 27 PLANT UNIT S/6 LE6 REEL TO REEL DATE
  • MIZ-18 QUAL NA NA NA 11 11 01/30/89 ST IN-RUN VOLTS DE6 % CH# LOCATION INDEX MIZ18 QUAL NEW.MIX/ANALYSIS CURVE PARAMETRIC STUDY DAT 3/ 1 /89 490 999 7.68 40 99 3 100%ASME+

0.00 27-26 5.93 83 76 3 81% ASME+ 0.00 80-26 6. 12 109 59 3 60%ASME + 0.00 133-26 4.90 133 39 3 42% ASME+ 0.00 186-26 5.00 153 20 3 20% ASME+ 0.00 239-26 8.98 149 24 3 10%GROOV+ 0.00 286-20 7.15 28 70 3 SUPPORT + . 0. 00 339-32 76.29 181 ONT M 1 4M DENT+ 0.00 392-20 * *

  • *
  • PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 24 24 02/02/89 ST IN-RUN VOLTS DEG % CH# LOCATION EXTENT 1 490 999 1 490 999 1 490 999 1
  • 490 999 490 999 490 999 UNT MIZ-18 QUALIFICATION DAT 3/17/89 ANL B. CURTIS II I REL 24 OSK 3S <3RD STUDY DISK> DEF WASTAGE PRB 540 SLF NEW.MIX/DATA ANALYSIS CURVE PARAMETRIC STUDY EVALUATION OF 540 PROBE RUN 54: SAVES-100/3;81/1
60/1;42/1120/3;10/1 SUPPRESSIONS-TSP/I; 4M DNT/1 1 .15 226 RES M 2 4M DENT+ 0.00 M 2 CURVE 1
SP1=1001SP2=60;SP3=20 3.39 39 100 M 2 1001.ASME+

0.00 4.52 40 98 M 2 SIX ASME+ 0.00 3.66 68 60 M 2 60%ASME + 0.00 2.93 109 30 M 2 42% ASME+ 0.00 3.30 131 20 M 2 20% ASME+ 0.00 6.51 134 <20 M 2 10%GROOV+ 0.00 RUN 55: SAVES-100/3;81/I

60/1;42/1;20/3;10/I SUPPRESSIONS-TSP/I; 4M DNT/2 0.83 228 RES M 2 4M DENT+ 0.00 M 2 CURVE I
SP1=100;SP2=60;SP3=20 2.82 38 100 M 2 100%ASME+

0.00 3.82 40 96 M 2 81% ASME+ 0.00 3.10 67 59 M 2 60%ASME + 0.00 2.48 108 29 M 2 42% ASME+ 0.00 2.85 129 <20 M *2 20X ASME+ 0.00 5.63 132 <20 M 2 10%GROOV+ 0.00 RUN 56: 8 M ONT SAVES-100/6;81/1;60/3;42/1;20/6;10/1 SUPPRESSIONS-TSP/1;8M Z..,.. 2.36 218 RES M 2 BM DENT+ 0.00 M 2 CURVE 1: SP1=100;SP2=60;SP3=20 3.64 37 100 M 2 100%ASME+ 0.00 4.66 40 96 M 2 81% ASME+ 0.00 3.74 74 60 M 2 60%ASME + 0.00 3.40 118 28 M 2 42% ASME+ 0.00 LEVEL Page 26 of 27

  • ** ** PLANT UNIT S/G LEG REEL TO REEL DATE MIZ-18 QUAL NA NA NA 24 24 02/02/89 ST IN-RUN VOLTS DEG 7. CH# LOCATION EXTENT 490 999 3.91 133 20 M 2 20X ASME+ 0.00 7.77 13S <20 M 2 10XGROOV+

0.00 RUN S7: II MIL DENT SAVES-100/6181/1

60/3/;42/I
30/6;10/1 SUPPRESSIONS-TSP/l;llM DNT-2 490 999 1.69 216 RES M 2 llM DENT+ 0.00 490 999 2.41 3.04 2.37 2.23 2.6S S.23 M 2 CURVE 1
SP1=100;SP2=60;SP3=20 38 99 M 2 100XASME+

0.00 41 96 M 2 SIX ASME+ 0.00 75 S9 M 2 60XASME + 0.00 121 26 M 2 42% ASME+ 0.00 132 20 M 2 20X ASME+ 0.00 13S <20 M 2 10XGROOV+ 0.00 RUN SS: IS MIL DENT SAVES-100/9181/1;60/6142/1;20/9110/1 SUPPRESSIONS-TSP/1; ISM DNT/3 490 999 1.S0 2S RES M 2 ISM DENT+ 0.00 490 999 M 2 CURVE 1 :SP1=100;SP2=60;SP3=20 2.07 36 100 M 2 100XASME+ 0.00 2.S7 40 96 M 2 81% ASHE+ 0.00 1.97 84 60 M 2 60%ASME + 0.00 2.0S 123 27 M 2 42% ASME+ 0.00 2.3S 132 20 M 2 20% ASME+ 0.00 4.66 130 21 M 2 10% ASME+ 0.00 LEVEL Page 27 of 27

    • Page 1 -8 8.0 STATISTICAL ANALYSIS Defect data was collected as described in section s.o, Technique Specifics, for all defects contained in the sample matrix (Section 2, attachment 2-A). Wastage, IGA and . circumferential slit (crack) defect standards simulating the actual present in the Palisades steam generators were examined.

The total number of defects tested for each degradation type is as follows:

  • TYPE Wastage IGA Crack NO. OF DEFECTS 93 193 30 COMMENT 61 ASME pit type defects and 32 large volume wastage defects Two defects per standard were tested and metallurgically examined to determine actual defect depth Circumferential slit defects Each defect was examined five times with each individual probe. Five probes were used from each Data analysis was performed on the data collected with the first four and first four examinations runs. The fifth probe and fifth run were only *analrzed if invalid data was collected during the four initial probes/runs.

Data analysis was performed by a team of four Level IIA analysts under the supervision of a Level III analyst. None of the analysts had prior knowledge of the depth of the defects being analyzed. Following data analysis, the eddy current results for each technique were merged with the corresponding defect depth data. Attachment 8-A contains printouts for each data base. Detection limits were established for each technique by reviewing the eddy current results for the most shallow defects which were consistently detected. For example, the 580 bobbin probe detected all 20% through wall defects which did not contain dents. The detection limit for this technique, for defects without dents is, therefore, "20%" with a 100% assurance of detection. Statistics were performed to determine the mean difference between the eddy current reading (ECTDEP) and the actual depth measurement (METDEP) for each defect:

  • Page 2 -8 H Mean Difference

= [ECTDEP_A. -METDEP;.] N Metallurgical examination of the IGA defects resulted in depth measurements based on: 1. Average IGA front (AI), 2. Maximum average IGA front (MAI), 3. Maximum penetration (MP), 4. Average stringer depth (AS) and 5. Maximum average stringer depth (MAS). Statistical analysis showed that the 580 bobbin, 4C4F and 8Xl probes all responded most accurately to the average IGA front measurement. This is consistent with the 4C4F IGA qualification conducted in 1984. Statistical analysis of the IGA defects used the average IGA front measurement for METDEP in the mean difference calculation. Areas of degradation which were not detected and nonquantifiable indications (NQD's) were excluded from the mean difference and standard deviation calculations. A limited number of data points were treated as statistical outliers in accordance with generally accepted statistical practices. The results of the statistical*analysis follow. Table 1 contains a summary of the results

  • Page 3-8
  • TABLE 1 STATISTICAL ANALYSIS

SUMMARY

(Based on All Data Points Bounded by the Given Defect Depth and Dent Size) Defect Detection Defect Dent Standard Technique Type Limit (%) Depth (%) Size Mean Deviation 580 Bobbin Wastage 20 > 20 < 8 2.95 8.03 540 Bobbin Wastage 20 > 20 < 8 3.27 8.55 580 Bobbin IGA -30 > 30 < 10 -4.18 8.39 Average Front !GA -30 > 30 < 10 -25.19 15.19 Maximum Penetration

  • 8Xl Pancake IGA -30 > 30 < 10 -2.62 18.78 Average Front IGA -30 > 30 < 10 -23.64 22.25 Maximum Penetration 4C4F Pancake IGA 38 > 30 < 10 -0.52 14.67 Average Front IGA 38 > 30 < 10 -22.70 18.81 Maximum Penetration 8Xl Pancake Crack 35 > 52 < 10 0.51 12.54 4C4F Pancake Crack 50 > 52 < 10 5.73 12.53
  • MRPC Crack 35 > 52 < 10 -11.30 11.89 MI0889-1691AA-TC01
    • *
  • P_age 4 -580 Bobbin Probe -Wastage Defects Detection limit: 20% through-wall for defects without dents with 100% assurance of detection.

20% through-wall for dents up to 8 mils radial with 84% assurance of detection. 30% through-wall for dents up to 8 mils radial with 100% assurance of detection. A 20%-100% through-wall defect residing in a 10 mil radial dent will be detected with 80% assurance. -Ability to detect defects residing in dents larger than 10 mils radial decreases rapidly with increasing dent size. Sizing Ability: Sizing results are based on defects greater than or equal to 20% through-wall with dents ranging from 0-10 mils radia*l

  • Sample/ Dent Size (mils) All defects >= 20% Dent <= 8 Dent = 0 Dent = 2 Dent = 4 Dent = 8 Dent = 10 No. Defects Evaluated 685 122 192 191 180 199 Mean 2.95 1.94 3.05 4.13 2.29 -1.14 Standard Deviation 8.03 6.23 6.21 6.23 11. 62 12.83
  • ECTI>EF' 100 ... 90 BO 70 I + I + I I I ... 60 ... so 40 30 20 10 I I *1 I + + + I I I I + I I I I ... A A B A ll A c ll A A A* A A B A B A D A G B c A A A A A A A A A [I A A (I F A c E F E Et G A c A A A * "iBO Wll'**"lf11,l*

I. L . ) 11 VS ME"l l>Ff""I H 1>ENIS <"" n Mll.b / MEIDFF' )"*20 F'L DT or f""f* rm f'°" MF I PU . 1..1. l',f' NI>: A '"* 1. UBS. B EA A c A B B E.F AL It A c D A AA c ll IE A GEA B AH VDH BF RAE .JE LEIE KA K H HA I=' D A A A E A F B GA [I H E (I F E D A A C F D c C B G A I L B B A D B A A A B I> A A A It 11..:26 MONDAY, AUGUST 21, 2 DBS, ETC. p I Z F 0 A BA D C D AA G F E C c E A A E K J F B G A A DA Et c c AA A c I c * 'I 12 I I l __j: J: II J:: " II "]" II II * ]: D .. __ J: II ... i a. .. -;;----------*-;;-*- --*--;;-* ... ---;;-*--*-----


*-


;;,-*--*-*--

  • -*-*---;; ---*-*--* ---HETDEP ND"I E: : fl UBS H Il>I>EN ... l:

r [_ _,\--" "

  • 100 + I -------, --**90 BO I I + I I i I + i I I -I ---i n I I .. L;

", I r,"... ECTDEP I .. --------, " I 50 + t ____ --i .. 40 * + I =[--i-* I --*-:ro + r---2:--lO I I 1 I + I I I I + () G (I fl Wt'l' ITf1l.E. i::r-*1

  • e,, vn ;*1E 1 m:i:-r11 llY llFI
  • zE I>r.NHi LE 10 / . d>EP GF ;:*o PLOT DF ECTI>EPttHETDEf' A A A A El I DENT""O LEGEND : A c: 1 OBS, fl .J CI Ci E. I A c: t: F A ;;.! OBS, ETC. (I Et I) G .1 .:. : ;:>(, hOl*Hl(*Y

.-(1l,ll .. Ub' :.'.1' I c I c .4 :r* .. -----------*---*-**----


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    • ***********
  • 20 25 30 40 5() 1-0 l<> 1".'i no *10
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  • '.*.*;no WA!>Tr)GE LCT .H VS ML.I N::r*TH 1 (,. :**6 11nNl1rW.

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  • DEP r.E. 20 r 90 + I r-------r-

..... M*----+ 1 1 --=---r --------1 I 1 l 60 !--*-*-** *. I --. ------* ., .. .. .. .. -[; ----so-+ "-: 1 " 1: E:CTl>l!:P 1 . ------,A *

  • 1 A 40 + 'lr I A ..
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.. *+---*-.. --**-*-............. --... *-*-t*-* --*-** ..... ***-*****

  • -* -** * * ***** --*--20 25 30 35 , 40 45 r;o ..

---* *-*---*-***-**- -*-**

  • DENT=2 LEGEND : A 1 DBS, [I 2 OBS, ETC * 'U Pl ..._. ****t '"' " *f*** '*** oH*O>*Oo t********
      • H o*******t*-*-*-*O
    • -*** ,,,,,,,,,., ****-***-*-*--**
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        • -MO**-**t*-***********

o*OMMM ****--** 'X> ,t,() t. '.'i 70 75 f:IO 90 '?!:o HE 1 l>EI**

  • J 90 + I :I --. _--: 80 + r*----70 I I* I + --1 I I .. , ---**-* -*--I *-., 60 + I *-***-****

.. I " .. [-.. .. ' .. **-" .. :c* .. I ECTDEP I --*----, I 40 + ---, I I ----*-** 30 + I -*----*- :m 1 I + I I l-.. 0 I I I T + A B A A A A (I (I A A A A A A A ,,:;oo WM>TAGE FC'l

  • I., l>l'l'lll .

VB M.:.. . .. IW Df.. ZE DENTS L .E 10 / dlFF' GE :*o l>E:NT'"4 PLOT OF ECTI>EP*HET DEF' LEGEND: A i. l:IEtB , El "" 2 OBS, ETC. El E A A A c F A c A llA A c c B A CN B CH F llA D AE C A A A B E B D A A c A (I [f E A I) (I E A (I 9 A A B 1 /,: :-.'6 t11JN!Un' , Al.JU.I!:: I :: I , 0 F A c F A * ** (. f-cJ pl 10 l*--------..

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-*--** --**-* .... !**-**** -**** .... *-***+******* ... -... *********!

              • -*

--**** ****+-* ** ...... ***** I**** :Jo " . .. ****-*. ----20 30 35 40 45 50

      • -*-------

--. -C"r:* ,_, .. /,() t..*; 70 no 90 ... ,,, MF 1 nu* I . I I

  • [Cl *'* vn MFI DLlTll ltY ZL l>ENTS LE 10 ;" DEP r;E l>ENT*<<D :r PLOT CIF ECTl>Ef'*HETDEP l..EGENI>:

A = 1 0£16, [I '" 2 OBS, ETC. 90 + I :f ... I I **mr**** ... I I **-----** --, **r .. I .. 70 + .. .. , I .. 40 + [ -_* -----* * :[ :30 + I *----r-* '20'. -0 I I .f. I + I I + A F c F :r-* .. --+------.. ---------+-* ---........... ---+ .... -...... -----*---- .... ** .......... . 20 25 30 1:[ -_-.-.. __ --* *

  • A A I) E< E c D F D A [I ...... . , .. .. .. I .. 40 iii *1 i*I' I* E r:. A [I A [I A B c r B A A ,., ... . ' I Ii'* Et c F I) A .1 ;.y, 11*. INl""IY , F\U(,lJ! *I" :.' l , 1***** A I 0 A 11 A A A G [C A A D (" A A D A B [I A A A A B A A A B **** . ................................... . ..... ** . .'() fl()

r 'i'O r* so-**r .. .. 70 * + I T I I + I I ., . I + ., I I

I **---. I I I "[*5----+ .. i: I A : ; .. __ _ECtl>!t!.

... : . I 40 + A "[ jjlf"*-.. ;;. I A . --*--:--A 30 + I A :I _____ f *-* .I_ . I .. :ro-* -+ 0 I I ., I + . I I I I + A A Wfll:i"I At.E E:Cl p*.vs 1 ME I l>t::l**'IH UY DEN l:. flE.NHl LL 10 / . a>EP GE :!<> PL.OT OF ECTDEP*HETDEP A A A A A t c F D F (I c: c I) A A B c A [4 A I>ENT,.,,10 LEGEND:

  • A "" 1 DEIS, [I "" 2 OEtS, ETC. A A A A A F El c (I A B A c c AF E ii c A A C c [I [I ,,.. A 1, .. : *. *t.

Al.lt.u*:; r c A A D A c A A D A c *A B (I B c A A A 8 c A 1.****1:l c c [I c fl H A F.: [I H 1.1 (I [I A A ---+---+---+---+---*+---+--*--+---t*-*--+---**t*--******t*-** .. ***-f******** .. *l*-*******t**- .. **-**I ********I .. **-** *I**** ...... ,****** I ...... *+-********-+*--* .. *+-**** t-*-***-+** ...... t-**-*****t*****--*t-*-*- I*-**** ***t**** *--*I********* +-**-., -20 22 24 26 :?.A 30 32 34 31, 30 40 44 41.. 41"1 'I? <;:;(, 6() 62 /,4 61* /,IJ 10 72 74 lb 71:: f:I*' r11* *r llFI .. ..... 0 ., * ,:

  • Page 11 -8 540 Bobbin Probe -Wastage Defects Detection limit: 20% through-wall for defects without dents with 100% assurance of detection.

20% through-wall for dents up to 8 mils radial with 72% assurance of detection. 30% through-wall for dents up to 8 mils radial with 100% assurance of detection.

  • A 20%-100% through-wall defect residing in a 10 mil radial dent will be detected with 83% assurance.
  • . Ability to detect defects residing in dents larger than 10 mils radial decreases rapidly with increasing dent size. Sizing Ability: Sizing results are based on defects greater than or equal to 20% through-wall with dents ranging from 0-10 mils radial
  • Sample/ Dent Size No. Defects (mils) Evaluated Mean Standard Deviation All defects 671 3.27 8.55 >= 20% Dent <= 8 Dent = 0 125 1.00 6.59 Dent = 2 193 3.25 8.12 Dent = 4 179 3.74 9.58 Dent = 8 174 4.44 8.87 Dent = 10 215 4.91 14.40
  • ** PL.OT DF F: CTl>FPa<HE"l DEP l.EGENI>:

A 1 OEtS, I! DEIS, ElC *

  • r.-. --. iHr + ** I I *f =*oo ---i---... I ,, 90 + .::L ..... . I . -90 +***---***-***-

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  • I .. ** * ... .. 40 30 .--+ + I I
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        • -*** 15 21 27 33 39 45 51 " * ... NOTE: 16 OBS HIDDEN iC**. -,, ___ -----*--*-*-

-* -*--*-* . . [ er. D D F j A A A F.i A EiC c D Et D HMC A c c CC8 c: B DBA B A c A IB c AJ OGC: A DH B B EE PCE B DB DCD A DD IBE A DA L C c Elt H It Et A A A A B 0 FK z H r.c:* t I) A D [I F p Fl . ti-*" ii BA c 9 M F _, *********f*

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  • I .:r----*-! "L_

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  • I ... 10 + A E1 [i D D [c A IJA!'l rA!;E Pl.OT OF ECTDEF'*HETDEF' F F 1'1 B [CT .. I VB MEI m:r*111 BY J>E ZE:. ALL DE:.. IS i>EtH=o LEGEND: A e c F A c I DC: I< 8 8 c c c A i*O(IS, It .. 2 OBS, ETC. A G r. .,.----11.) : :-!.

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    1_ .. x--:!v ... I I I + A A A + I I I I A *[_ **. ; ... 0 I I .-. + A Et El A D El A B A A [I A A A B D A El A WAGTAGE Pl.CIT OF ECTDEPttMETDEP A l1 f.t c c A I) *-ECT**H VS MET l)[p.fH ftY OF. '.ZE ALL Dt .* .* rs "DENT=2 LEGEND: A "" 1 OBS, B = 2 OB.B, EJC. G .... f. .. A A ll [I C C B c A A C A .. -* ... **-* B A 9 c ....... D B A D D 9 AC A *--***-*--. -. A c 8 B A C c A BA c f.t A t ll 16 ' ::.* HllNI>AY , AUGUS r L ** 0 E H B A (f A B A B A '-d Ill (Jlj CD *
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  • WASTAGE -FCl .H VS MET DEf-'1*1 BY l>E' . iZE ALL l)f.:.1 _ ... rs i>ENT=4 r** *. . --*----*.

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45 50 A A A ....... I* ... o tff I flFI

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I ** I -*------*--**-*-*-***** --**-* .. *-* PLOT OF ECTDEP*METDEP DEN1=8 LEGEND: A t OBS, Et = 2 ,. 90 + ,rr---+---*** , *:C ________ L. It 80 + )" I " I "l r .. __ "!" ..... -*---)",, I ** I )'* I " I

  • . -*-r----,.. 60 + " I

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  • 1*. * *
  • 1. ** !. I i " *") ' ; "11 "*
  • ** !.HO WABTAGE -** n::*1** \"TH vn MET DEPTH EtY l>l 'l.ZE ALL. DI:.. .*. ;TS le',:

MDNl>AY, AUGUST

  • -*II ** .:h ,,. :** * ** i>ENT=10 1-. I ,r=--

.* , .........

  • --*-----*

.. ---.. ***-*-** .. 1 OBS, B 2 OBS, ETC. Pl.OT OF ECTDEP*HETDEP LEGEND: A ** 90 ** + I r----1 I '[ ... .. eo *-*+*-*** --* ... I " I .--rn-*** '.1 I .. :: 70 +A .. -. r* A-** .,, I A ,. I .:1** < 60 !

--c ." I A " I A
  • . -+*v*-*-----

... *;,;\ I B . rr11:..._ ECTDEP I * -----*--r .... ... I .. 40 + **r* --------.

    • F I : ; -*----**-----** 30 +
  • I ..
  • 1 ...

I " .* ---.l---;zo--


+ ... ., "[ -l ... I .. 10 + .. ----*--* --I ... 0 I I -.-* + A A c D J:< c f.t B *{. --+---*+-*--+---**t---**-*+*---*+*---****---*+-***-*-*

    • * . -----. *20 22 24 26 28 30 3:'. 34 3(1 ( .. ,,:1 ....... -----------

.. *-c A A A A A A A A D A D D E A A (I A A **-**** .. -*-*- ... -.. I ......... f *-.... **f**** ...... f ....... *f ...... *****I*-:30 40 42 44 46 4fl t11' 1 l>FF' A A A f.t (I A 8 (I A ii . -*-. A A D A C A A ....... -A f: B (I A A A [1 c .. D A ... ----* E G D CG B **9** *-*-. e A C B *9* --**--A A A A 111** B A A I> p El A A A (I I> A A c A A I> A A A (I (I A 'U t-' ...... * . r. i. .. I* I ! . --*---+---+----+*---+---+---+--*+---+---+---+---+---+----+-- !'m 60 1.:'. 64 1.1.. bO 10 *n *74 "76 71:1 Bo 1* 1** : t f. ___ ... _

    • *** Page 18 -8 580 Bobbin Probe -IGA Defects Detection limit: 25% through-wall for defects without dents with 100% assurance of detection.

30% through-wall for dents up to 15 mils radial with 88% assurance of detection. . Ability to detect defects residing in dents larger than 15 mils radial decreases rapidly with increasing dent size. Sizing Ability: Sizing results are based on defects having an average IGA front greater than or equal to 30% through-wall with dents ranging from 0-10 mils radial of defects residing in dents greater than 10 mils is Sample/ . Dent Size (mils) All defects >= 30% Dent <= 10 Dent = 0 Dent = 2 Dent = 4 Dent = 6 Dent = 8 Dent = 10 No. Defects Evaluated 1010 128 176 192 174 149 191 Mean -4.18 -4.86 -7.56 -4.38 -0.92 -6.36 -1.68 Standard Deviation 8.39 7.82 7.15 7.81 8.08 6.68 9.99 ' I * '."1UO JGf\ *** I: CI DENTS < "" DF Ml* I 1!1:'.r"rl I 1 . *I """ ll>: /I I MfJN!lrW' 1'11.h:;w:: I :: J ' 1***1 l't .. Dl OF ECll>H'MAJ. LEGEND : A i Ol.1B, B Olt!:i, ETC. [--. -*** -----* ECTDEF' I . . . .. - .. *-*** -I I I '[-*----*-,---- ---* 80 + * --*-**-*----*!*---*--- .. I I I "[ 70 ---+*--:: *-----r: ... .. I 60 + .. , 1---*-:'--------* -** --: " 50 + I :i----* :-I * . --'40 +-. " I I [ ___ T_ : . *---:1o_ _____ f ! I " I -*--------* ... I I I "[---iu----:J. u I I ---------*- I 0 + 8 A Et B B C A tll>C AFA CDA AB D A A A A A D G A D A 8 B A A c A c A A B f' (I A A D F A B A B A A E A A l>A C A AA AB c OB E C[I C EA A A c A A fJ AA A A A A A A. A Et ACA i>Ail A A BAC AC DA AD A M tAe BACBACAA BEDGBCBBA AAAF Aft AEIBACDA A BllADAAA rncti\ A FCABD B DA D D A A B AF"A [I A AB G A BD F BD A A AAE A C B flt D 1-1 EFC D E: A FEE AD E B BGB F F D ij[l(I C C IA c 8 E I (I B Gi! EID C El c A A B r:: c B B A le A A A

  • -----***** -*** * .. 20 25 30 35 40 4:; 50 c:*r** ... 1 *. 1 8 C A G G A H A C E: E: A 8 [c (1T --** --*----F 8 A B If l>B CA 1-1 c A A B Et *----*I ii A DCB D CB A A Aft A ***-A A CA A F ABA A G 8 B .. ****-** .... E A B E (I it c A A A p E D C A B A fl [I [C A Et F E F A E P LKI AAC BA AOB FIA AA A D A fl BPY H c (" ,._._ ******-... *---*+-*****

........ *-*******- .. **---**--*-****+-

  • ---**--*---*+-*-
  • -*--**-*****-**!

-********

.. ....... -* -** ****-** 60 (",'.'.} *70 1'5 80 85 '?() 9'..'i __ _ -----* * '-cl ro ,_. *.o ")()

  • r.r.ri *** r:c1 m .n Ml: 1 n1:.r-H1 i b * 'l I. HUNl>tiY, (ll.11 .* l.l!'i I ::I, 1******1 ... r 90 + I -------1 I I . -BO -----**+ I I

.. I I "[ I :-__ :__ __ }. I " I ,. I ,. Et:TDEP I D .. --- I D 40 + (I **r-* ***-* --. -**

  • I ,. I --** -*----,---*

30 + I :r-. ---: *-. -w-*-**-t:. A D G A I [I I A :r-*-.. =----*-r *----*-*** --., I I "' 0 + PL.OT llF ECTDEP*AI c A 9 I [f F-"" A (I F.: A A c c D c Ee uv ni:::.

  • zr DFNTS <"' H.
  • 11 :m l>ENT=*O LEGEND : A = t Ol:l!:l, 0 c A (I D A B c 2 OBS, Ere. *r--* -T-* " -+----+-*---*+-----t*-*-*-*-+--**--*+--*****-**-t

-**-** ***+-** *****-*t*****-

      • * -+ * **-*** ****t*-***-**** I*** *****-*I ******* I*******-**

I*-* * **-**-t****-*- -***!*********-*-+*--**--*I*****-******+

            • -*-+-***********I-***********+****
            • *I***** . ----*---;ro-*-
32. 34 36 38 40 4::> 44 46 4R ::iO 0.2 54 '.'!<'. !'Of.I 60 t..2 64 1.tl., I.I] 70 7'2 74 71.t ,_,:*r ,, I'll
  • A fl [t (I A B F E F E *-** .. *-*-***-*
  • n1 1 .* I ,. 'U Pl 01:l CD "' *:> ::io
  • 11.<' **** I O" Ml_ r m:r 111 i:cv or::: : zr ! I DUH S < H>° (II PLOT OF ECTDEP*AI LEGEND : A =' 1 OllS , [c "' 2 OE1S, ETC
  • ECTDEP I 110 *** :r-------:

... --rou---*+* -----*** I I


.. I ,, **-*-*----*-r-**

  • -**--. I 80 + **1 r**--. ----ro- --.. .. .. *. * .. 50 +

--*--**-* --*---* -* L _____ ._ -i-" I 20 +

-*--iu--**--L I I A A D II c 8 f' "[---*r* . = 0

"' -._ .. --------20 25 30 . '1(J ___

  • A A AA [IC A DA c A A A If DA A HA CEI D H AC A HC AA fl [I A Et [I A D *****f**-*
    • -*-*** -*. *O ** r;o F D r. [l A -****** fi I A H -A F ... (.,() .... ........ . ...............*.
        • -.............
    • 70 * '! E Ft Et I H c I. f' ******-**
  • -*-*** .. *-* ***--*****-*-******

... *-*-**** ...... *--********** (ll) fl!'.i 9() (?!'.'*

  • r *-------90 + *c ___ -----* }----: __________

L_ 80 ... I I ,,c=:=-1*- .. I .. 70 + -------**r*---*****--. " I I .. 60 + ,, I .. .. *---* ---* -*-....... , :.[---:T:EP--: -*--* *-*---------*1

[ _ .. I 40 + I I -*----** 30 + I " I " I ---...,... ----o<V + I I "[ ,--: _. ____ 10 _____ .. 0 + A A [I A A A l:l A A c A A K Et II A A A A AEt (If.I A D t llA A BA EB t A c D A fl A A '.AJO .I (;(, :... EC"I . m:-r .:; ML r IJl'.F" I H f'LCIT OF ECTDF.F'MAI A G F A A A c A c I> D EtY J>Et 'ZE DENTB <=* l.O. .I °>=

\ I I>ENT='I LEGEND: A "" 1 ems, [l "" A B B AA A c F El> F FA A (l[l B II i (,: 111. ML!NDl'\Y, Al.Jf,l.J!:; I :.,1 , 2 OBS, ETC. I F' H B A .. ,------.**** -... .. --+----+----+----*+---*-+*-*-*-******-+*-*-**--*-+*-*-****-*I*-*---**-*+-***-****+***

          • I *-***** *+*******-****I***********

I *I*-*********

  • l**-****-**-+*****-******-*t--
  • ****--* I*-**** .. -*+*---**-*i*-*****"****I*-**-
  • ---*I ****-*********-t
            • -******!********
  • --*-----*-
  • 34 36 38 40 42 44 41,, 40

/,(\ 64 60 7<> 74 76 78 *no (l I [---*-, .. ---. -. **-. 1-tj &: (]) N N 00 f'

  • rJ-r*. *10 +
  • I '[ ___ .. __ T ___ ... r ' I , I ..... ___ _____ ... _ ....... .,, *:1u *t-r* " I " I "[ ---. f " I ..

"" " "[ "': :. 60 + I .. -1 (\'> .. I .. I "i=:".'. -f'., EcTDEP 1 ..... .. 'L"-'-"--*-I I I * ., 40 + [i Et -,r--... A c .,,. A


g-*

  • ,: . I ! ,'. . -*:._ ..... ---T .. * .. 30 "[ . : __ _ --. .. -. '!:!O' ., .. + *+ I I ..
i . 10 -. I I A c E -*E A A [I B D A A c A A A c [i E A E'.

lGr'.<\ *-* FCI J)f'.V!:i MLT l>EPHI r*un UF ECTl>EF'ttAI A D A A E [i c A D A C A 1> [I A BY DE *zl: DFNTS < "' .1. '* ol )'" ::110 DENT,,,6 LEGEND : A "c :I. Oli!'l , D = 2 OBS , ETC

  • c D -* D E D Et Et -H [l A A ..... , ... '.'i() --! -------*-------;;-. ---------+-

40 --+ 35 " . 30 ****** ****** r.*r. **'*' I. ;.1') .... , ,{, .. ; "/(! {,I [-----, .. . , ------*--- --* B I D A 1 .-, : 4 l t1f INDrW. Allf;IJ!:.T , K A c A ......... _ .... ,. .... .. .............. , ... .. ',.'.'i 1:10 K A [I I* .. ... w:. .1."'.l. *-* .. f

        • ) ! * "'d Ill ()t) CD N w CX> 'l
  • 11:;A .... FCI HI::. I m::PIH IW DE:. l.f.: j DENTS <== H* tI >"* ;m DENT=8 ** *r-, -. *-******--**-*--**---

PL.OT OF Er:TDEf'ttAI LEGEND: A 1 Of.IS, Et ** 90 + I *r-*----.-** I ' ... -*----*--I 00 + ... I ,, I "[*-----i --*-*-*:: _. ___ ... I I I **c*----1 ... 60 + ,, I ....._ -----*-----. " I ... I ,. I "['

r ... ) I A ,,. ECTDEP I * -*-.. ------r---

.. A ... I

  • 40 + [* I **, I "--------r

.. ... 30 + I . -,. ** I I **1 * ---+ .. ""20 *** *r**--'::t .... --' .. I I -** I + I I I r 0 + A A -A* A A A A A *CA [t AC E Ee Et [t [I A (I fl fl A c A [t A A [t A A "(--------* --I --+-----*-*---+-**--------* .. -*-+****--

  • ---. ****-*******-****** " .... --------------

35 110 '15 *c I I* r ***-------*-*---

  • .................. **'*** E E Et c A *****-********

1.,0 A A F r. A ***** I. /,!**, "'I **** /() 1f,:11 MONI>AY. AUGU!:: I' :?l

  • 2 OBS, ETC. E L D A A [I A --A** B A A A *-*I .................

t**-**** ..........

        • -*** *r; no r,10 1***1 F' p ..... ***
  • *' 1-rj pl oq CD "" .i:-:>:>
  • :r----*---*-'70 + I *c*----.---
  • I ' I . -***-....,.,------

10 t:JV + I I -.--.. I "**.*-* ___ 70 + l I *---------___ .. _ *--* 60 + ,, ;, I " .. -* __ ._ ______ r--*-***

  • I A I l :so + r-------------*--" I C ., . ECTDEP I 8 " ****---------rPI***
  • I C ., 40 +A A A (I A --**u A 11 11 A A El A A :J' ' : : Ll I -. -----"£-**A .. -.11-* 30 +
  • I l . I ---*---------* * . . I
  • I * . -*--:zu-*--**-+**

..

  • t I **--------'.;_, lO + ---*-,-' I 0 + AA c Mi Dl:l All c 11 A A :**;no 1(,(1 **
  • l:CI DI
  • Ml. I 1.11 I' 111 I;, *1 I 1*;1 Jtll ,,:,y, ()(.!i.Uf, I :
  • i , F'L.Ol OF ECTl>EP*AI A B c A D A c A A A A El A A F [I BY DE /.L J>E:NTB ("" t<. 11 )"'

DENi.,,10 LEGEND : A "" 1. OBS, B "' :2 OBS, ETC. B c -A* A E (I (I A DB tA A A i>Efl CEI AB CA ABA B El B (I A A F II c [I A -**------*---A A I f' A H A , ..*. , :r. --+---------+---------+ .. --------+-**-------+----

  • ----4-******-

.. ***I** *****-****

      • **-*****---t
      • -*-*--*-****-**--***I**-******-**-*****-**-*-**

.. I*****--... ** *-*-***********I****-**


:ro-*

35 40 45 c.o 5:'0 (,() "" ,_,:L.;...._.* ---* * --=-b5 70 75 1'10 0 , .. (-!*>> ,. '1j' Cll ,N U1 ':¥J ,. !;

  • Page 26 -8 8Xl Pancake Probe -IGA Defects Detection limit: 15% through-wall for defects without dents with 96% assurance of detection.

30% through-wall for dents assurance of detection. up to 15 mils radial with 88% 40% through-wall for dents assurance of detection. up to 30 mils radial with 88% Sizing Ability: Sizing results are based on defects having an average IGA front greater than or equal/ to 30% through-wall with dents from 0-10 mils radial. Note that of defects residing in dents than or equal to 2 mils is inconsistent. Sample/ Dent Size (mils) All defects >= 30% Dent <= 10 Dent = 0 Dent = 2 Dent = 4 Dent = 6 Dent = 8 Dent = 10 No.* Defects Evaluated Mean 881 -2.62 90 -5.59 156 -11.33 167 -1. 31 163 -2.30 145 1. 08 160 2.48 Standard Deviation 18.78 9.53 15.14 19.28 19.36 23.48 16.97

  • :r-
  • . -****no-**-+-

' I '[---* ---.----* t.00 + ' I .. -----*----*** . . .. " I " 90 +


n I I *1 .--------. :-____ ..,_ __ : * .. 60 + :f; . *: _.___

+ * * .. r,,___ -, :ra* .. ----. ---*--r *

  • 30 +

T -------rn --, " I

  • t __ I "-*-* -*-*-*-. I I 0 + B A ll D A c A A ,,,. /ft -AB A AA A le A A (I A A [I A A UX1. IG(\ .... FCI 1)1:.b Ml:'! IJLJ'."111 DENTS < " j_
  • I ) ,,. :rn r*un m: ECTl>EF*AI LEGEND: A 1 DBS, B 2 O[IG, ETC. D tJ F A A fj le A A A c re A D A A A A A A B A AB A A lt l':I A A D DA A r:: DA A A A AA CD B A B B A A (I A A A C c r. A Ii A A A A A fl C l'.il'I A A CC C B A l> AAB A C A AA [I [I AA A AA B AAB AA Ale t:A Ef[C [I A BD AA AC BAD c D [* A BC A A AEi A C A A lf Et AAF* AA l':I A ABA [I A A A A (I AA m:c A C B A A DB i:: A B AAA C AA i) IJ A All A BA BB B Ee A t:A C A 'BC El B B ED [I [i A A B CC B B C AC A A A C: C BC A A CAC'! FAB B AA C C l':I CM HA A [I EC A Ee r:. A HA B A A A AC A [I fl l)(c A A AA A A [I A A A A E: c A A A A [I A D D (:I i) E F A c A A A A A A c (I A A A A A B A D AE (I Ail AA BA AA BD A flA . ill'f' A A A t. c D A fl A A (I A A fl A A ,,,. A D c B t fl A A E E a t: A A A A A c A E A .,. 1 b: '\II i*111Nl1r1Y, Al.11.l.lh 1

0 1 , ... \ D c c [I [I I) (I E t I A (I D A t DA *DH FD BD Dl>D A Ell C GB [I B re llD B BB [I (1 A A AH Al l>Al E*FC ECA BEi AC A A =c--- .. ..

    • -*-*-*-

---;)(*)-** ... *----;;.-* --. *-* . -----..... _ .. __ .. *------- _ .. _ *-- ... _ .. ......... ....... AI *[


.

---*-* * >i::J Ill (Jtj CD N --.I 00 ;:

  • 90 + I :1-*--------:--

.. --:,. .. I ,, I " r-*** ::[ __ _I!>__ --f " ---.. r n ,. I I "[ 30 -.. ,. I ,, _....__

  • 40 + :t I I I *-----,.
  • 30 + *

-+ I

  • I .. G-, u I d -* I I A A B B A A A A Ee A A Et A A PL.01 llF ECTDEF'*AI A c A A A D A c c c c B a A B c A A Ft: I I\'. Vb ML I l>l::l' 111 I ..... -l4 At.11 .* w:; r : '.I.' ... BY I>I Ill. DFNTS <= l. AI >* 30 DENT=<> LEGEND: A
  • l OBS, B
  • 2 UBS, l* A A I) A A A A ll B Et B Et A A *r---. . 0

---*-*--** --+*-****-**-*

      • -*-*--******
  • -*-. ****** *. ** *-** **-.. *** ***-* ***** I****-.-*-*I ... ***-*** I** -*-****! *---**** ***t***--*-***
      • +*-****--t**--..... +-*-*-*
  • -*-**I**

--*--30 32 34 36 38 40 4:1 44 C--. I I* "-*----*-*

  • 4f:I ..... , ...... '.';"'

60 1,2 114 t..lo 110 *10 72 74 71.o 71-1 fl I. (I F! A [. I. D ' :r :["

  • 100 + *-9()" I i I I + I I l---*-**-----. " I " I ** BO + . -. I =r-* .. 70 * .. .. I I I ... I I :[ *--

.. *-**-----I " I l50 + :1-* ----r----.. -***-**-**-* . 40 + I :r--------T

  • -** -* 30 + .. 1 20 10 I I I I + I I I I + A A Et A AA A B A c AA [I AD A AC A .A A A l:JXj . .IGA *** ECT !)r-.VS MFI DFPHI 1. 6 : 'I 'I Mf.INI>IW . AUGl.l!'.*

I :-.* I. , Ir. 4 HY J)E ZE. DENTS < "' h.. 1°1: DENT=2 PLOT OF ECTDEF'1tAI LEGEND: A m l OBS, B

  • 2 OBS, ETC. A A I) [I c F A A c: [I I) B A A A A c e B B B c B A c A B B B A A (I c A A (i A A D B C B I> A A f I> A Ir I> A A (.1 A B r* I> A A I:< A =1* ..
              • **I*** . . . .. **-*** *-** fl .....*. ,_ ........................

-*... I-*-*** ****-*I***---*--+******-**** l**-**-****-**I

  • ******-***!****.
  • -** I** 44 46 48 50 5' 54 SA SA 60 li7 "4 66 7(i '/) 74 7(, 10 oo 02 U4 e1i on 90 . .. ft I

..

  • li:J Ill oq (]) N \0 OJ
  • O.><I. JG(\ .... FCT r>' : V!:i MF I nr.r*1 H l.*Y UE *zE l>FNTB < '"' 1<1 . AI r PLOT OF ECTl>EP*AI LEGEND: A
  • l OBS, B
  • 2 OBS, ETC. ECTDEP I 110 + r---**--*

--:--.. *-Im:r **-+ I I "[-*-----*--I --:: ... --*-+,'. ,. n I 80 + = ..... L-----:----- -** . I . . -((J"_._ --F ,, .. .. I I =r'; _60 __ ! _______ ... -* "*.i I

  • I 50 +

I * '.: . I ., :' I .......---. .. [ : I I r----*---* + I I I 20 + .. r---*,-:1... ___ to -! I A B c B A t: c D A [I c fl [I A B A A A B (f .A B A . B c A B c A A [I fl A A BA B A El AA I A fl .. 0 + A (I c B A [l , .. A .,-------1 A ,, --+---------+--*--*----*--*+--*-*-**-*----***-*-***--* 30 35 40 4':i l_l=r " .. ,,...,,, A Ec c B E c A A c r* A (I c fl A Ee D A A *-****** *-*-* .... , ...... . ..... ... ... . ***** ... -* *-*****-*** ")(> '/() fll i 1,: 4 f\Y, Al.tf;Ub I' , A c A H A A B A F B B A B A * ..

  • I I' 1-tj Pl (JQ CD w .-o ..........

I---------- ....... _ .................. __ .... -....... -.... , ............ -** ... -----*I...... . CX> 'l'."i f:IO m:; 90

  • l:J'(i. r.r;.-, .. u:T 1)1_.Vb ML!' EIY DE 'ZF \ ,-, l Mi:lNl*rW, r'\t*1;U!'-

I , *' t ,, ' , ... J:-LF' Ill DENTS <= I >= 30 DENT""""'

r
  • PL.OT OF ECTI>C:T'*AI LEGEND: A
  • 1 UBS, B
  • 2 OBS, ETC. 90 + I :[----*---*i ifo*--*-*

I I + I I 1 I + I I " I 1 + I I .. , :l ... " ,. I I "[-* so--**-+ ,. I ,... ECTDEP I . '-----* -----*-** I 40 + :[*--*-: , ___ ... **---------, 30 + I *-------:-. 20 ... I-* .. .. 10 0 I I I I + I I I I + ll A A A c A A c A A A A ti I> A A A A A c A A A A A A A A A A A II A A A A A A A A [I A :r .. --+-*---------*+--------**-*****-*+-*-*--**-*** ................. _.,,_ 30 35 40 - .. ---** -* ----! _ lvi .. * (I A A A A A A A A A A A A A A A [I B A A A (l (I B ................. 50 A Et. A c A A F.t [I A . ...... *. 1,J ***** *****-***** (,I) f\ r A D (I c A A ][f A I> c A D A c A B A A c A A c *c A --+------**--1-- 7(\ J) (I [I l) A [I A ....... _____ .. no ***f --*-************* ....... I ..... IJ:':i 'iO 1-tj tll Oti CD VJ ...... 00 I ** J 90 + I r ------*---T -RO'-+ I I " I "[ " __ 7_0 _______ +, ,, ll B A -11 A e I A :rr*--6-o-- -:--:----*---*---*-l + -" *-------I --, -* I .. I .. "'. " I ,,, . Etti>EP I " . *--------,

  • 40 + :r .. : *' . I .. -'-.. *-------r 30 + " I A :1 :-*--.. I --"'20 -*** -+. I I =c--::--***

1 lGA ....

  • l"I l>FPlll r:c*1 ))'.
  • M . . JW l>f., . . . DFtHB ('"* H1 .i:c )'"

F'l .. OT OF ECTDEf'*Al A B A c A e B A 1:1 A A A A A El A A B B B A A A F.* A J>ENT<=8 u:.GEND: A "" l mm, [I A A B B B A A A c It ti A A A It A A A A A (\ *r-. ------I A .. 0 + *. . . -*** -;---------+-*-*-*- .. -*--** .. -*+-*---**---*-----*-****---- .. *-*-* --*-** ...... ................ "-**** ... _ ... *-..... . .. ... , ...... ---*-...... 40 45 50 11=[--... . ---**-**---55 1.0 .Ir"' '"'*' fl .I 70 1 /, ' 4 *1 '( ' Al.ll;un I j_ * ** :;.! mm, E.Tc. )) I) A G A D A El D B C B B E [ A A (* A F* f.I F.* Et A c A *-*I ............................. ,.-.............

  • -*-*-***

+ ... *--**** ***-*-t* ****-*-*-**- .... --*** ***--* no f,5 .i 'U Ill (JQ Cl) w N i I : co l 90 :I --f.io*-* * + I i I I + I I "l. -.. ----*i " I

  • 70 + . *--* ----*-***-**1*

., I I *-r------, : .. .. r I I "[ 50 -... " I : ___ .. " 40 + **c--* *---1 --: .* *-**-*---*-! 30 + I **-------r-"t I A

  • I A *. *-20 -I .. -...

I I I + I I I v 0 + [. F A A A A A A A A c (fA A A c A A A A A A [I c A A A l:OU l.Gr'I .... FCT l>F.VB Mr I M.J.**111 F'l..01 CIF ECTDEPttAI A A [I A (I [I A A A [I A A I) A lW l>f.: ' ZE l>FNTS < '" h .I ):"' l>ENT,.1.0 LEGEND : A i. 01*8 , B A A A I) AE A BA A A AA BA E AA A c (I BA A BA A BB A A (t A A [I A c A (I "I*---*---. *---1 IO

-*---*----*--

  • -f*-n* **--***-*-*-""" ,., *f*** ****-* *
              • I******
  • . **** **I* 1.,5 *** ** -**-------30 35 40 45 f.,0 n .. (d I

-*-* ..

  • 1/,:114 ii* lNllf\Y. t\l.Jl.Ub I
  • 1** ,, ?. OEtS, ETC. A () E Ee E B A A c . [I c A B **--*
      • -*-******-*--*************-*.
            • -****

***+* *****--*****-*-*

-*-***-**-***

        • -*** ***-*-*70 '7!"'.i 130 '?0 'tJ CD w w 00
  • --* *
  • Page 34 -8 4C4F Pancake Probe -IGA Defects Detection limit: 25% through-wall for defects without dents with 94% assurance of detection.

30% through-wall for dents assurance of detection. up to 6 mils radial with 38% through-wall for dents up to 10 mils radial with assurance of detection. 40% through-wall for dents up to 15 mils radial with assurance. 79% 84% 81% Ability to detect defects residing in dents larger than 15 mils radial decreases rapidly with increasing dent size. Sizing Ability: Sizing results are based on defects having an average IGA front greater than or equal to 30% through-wall with dents ranging from 0-10 mils radial (sizing of defects residing in dents greater than 10 mils is inconsistent). Sample/ Dent Size (mils) All defects >= 30% Dent <= 10 Dent = 0 Dent = 2 Dent = 4 Dent = 6 Dent = 8 Dent = 10 No. Defects Evaluated 957 126 171 181 163 146 170 Mean -0.52 -2.52 -5.16 -1.99 2.03 -0.11 4.44 Standard Deviation 14.67 9.83 10.48 15.17 15.12 18.73 14.55

  • I I ---:[

-*-*-' ---*-rro-- +

  • I I l I --*-* -*--*-q*
  • 100 + , I ,,* -.,..-*--*****

90 "[ + :: . r**--------Bb +---*----*--" ! I l 70 + ,,\L I

  • i------*--.. ,,.
  • I AA .. 60 + El I ---*-*---------* B *
  • I I AA ---,.-B A E'. * :'"rf-*'.

__ 40 __ _.;.! *L I -------**

  • I
  • 30 + c -A A A B "C:, .------* ! *. '** I * -*--+ .... I A
  • I [I B c . ----... -. I
  • 0 + 4C4 u;(\ -* [.(;'1 I'. Vb' M[ r l>F.PHI l>ENTB <,, .. ,J > ,,.. F"l .. Crl OF F::Crl>EF'*AI A 1 DBS, D ;! Oflf:i
  • E re
  • A B c [I fl A B c A/\ 11 A B BA -[I A AEI A -AA . A AA B AA .A A Ac; A A (I A A A B Et c A c A c AA El A A A A Ii Et B *A B A [l DA M AA A B c AA A A A A [I A A B A A 8 A A c B MA-A *-BA A BDB C D A AAB A BA A AM A I> A I> Gt .. G A A Et c E A A EA El A A [I A D A -AA A. -9 DD' -.. A ..... B BAAB CA CD* BBB I 9AAB A A A A B A D AC C[I C D A r:-CA AA A A C EIA CAD A AEtCI<ADAC A C EA CHA G 9 c AM flA ACA--D AACD BBA A E AA BAAC AA A D EF AB A ACF' AC c 14 c re AA E*AA B c AA CCA [I (I Et B AC A AC: A A B AA EICB [I A A c A A A AAA C A A A A Et c AA AAA A D A A A B A A B c A A A B A c A A A B A t A ACH A 1:!8 BCA E i>A D AA A AB .. ,. .. c it A A A (I A Ii A A Et A A A D t ** A A B E E 1.** li***--* *1;-* A A **-*-*-*-***--*

l /,: 4 / 11llNIHW. Al.lt,tJi.i r :"1 , ,. [I AAB ABA AA[I A C A A () [I AGB CBIJ A AC E*El) c AG IGD HEB F AE BKA A H ff EE E A H AB D E D e:-A D A A A A A A t -;:,------;;-----H * -;, -0:-

    • -""*

---;:,---


;:,---:,;-* * .. '°

_ -"lfu,' ... A ___ .c..__ * * --= >tj CD w \J1
  • 0 00
  • I I 90 + I '[ r-**-* ----***-*
-*--90-**---l I " I A II A ., 1{, , 60 + B ,. $ I ..
  • .. *---A****-**-*-*

c

  • 40 + ** ;j. ,,. *: , t B .,, ,. I : :. __ *_. __
  • B
  • 30 + c
  • I A ,..,.....------r---,A..--*------

-*--*--"[ **.! . :' ..

  • I i-------r*-A-*

... I I c D A c A A 4C4 :t l;(l ... EC I I'. vr:; MF r nr::PTH l "' : 111 HUNldlY , I j , ** l:tY DI :zF DHffS <=' :1.,, f\I >'"' :m DENT=O Pl.OT OF ECTDEF'*AI A 1 OBS, B 2 OBS, ETC. A A }) A H c c: c A E c A A D A A A c A A A A B A A B B c [f A A D [I A c I) .. ,,. F [I B B A [I A A -*+ -----+*----+--*---* t**-*-****+-

    • ---1--.... *-t * *-.... ** I** .........

I***** **I ........ t** I .......... _., ............. , ..... *-* ... *t .............. , -----** ***+-......................... ,.-.. -..... ............ , ....... *****I ......... . . . -*-----*-30* 32 34 36 38 40 4:..* 44 46 4fl '.';() r*;f, '.'>>1'l bO 1,2 b4 6b f10 7() *7:'.' '14 '16 71'1 .. (I I ... *

  • I I* w °'* , ,

' I :[--* ECTl>EP 110 + **-----* -i I I too* ... :r--90 + I I I 80 + :r---------: ,,L. **-*--I ,, * -*-10 + " I I "[ ________ -,. : . --

,. I 50 + :r----; --* .. :L .....

! I I

  • I I I ., 20 + .. r--* .. " ., I I u,-* + I I *-1 0 + A A A Fl A A [I c: 4iA I I.A 1::.CI I>. V<;, Mf.I J.ol.1"111 IW DI. ZE" Df:NTS < '" 1., .. f'L.DT OF ECTl>EPttAI LEGEND: A = 1 OBS, II
  • 2 ODS, ETC. A A A Et (< A e A Et A c A A B A UC D A D AB A Et c CB Et A A c AM (l AC EA B AB [IA B AA E A A EF A A FC c A A AC AA A A =1 * ,, --+-------+--*-****--*--t*-****-*******-****

I--* ........ *******t '****** ....*....... + .. -*-*** -* ........ ***+* ...** I* *.... .....*. , *....... 20 25 30 35 4() * . .,. -.. , 1:-:*r.* *'**' (',() 70 ** ,, A A A A A A c I [I (I H Fl ? .. ***********-***** ........ ** **-*** .-----* -** *************-- .. ' .... . **-*H ...... . 00 1:10 <m <;r.:;

  • ** :*.i'
  • i /1: 4 / Ml.INld\Y, I :r* r ECTDEF' 110 + -------T I I nm---*+ I ,, I "[*-----1

.. " 80 + ..

  • I I I * ------*--r " I :50 + :[ : * ,* I

.. .. *

  • I I :--

___ .r " " 20 + :L.-:--*-.. ---***-itr **+ I I .. 0 + A B [I *u c l:'I A B -A .,,. A A A I* *c A B A [I A A A A A A (I A BA A A (I CA BA Et A B Et D A A A A A A 111.4 I t;r'.1 .. E: c*1 Ii' '*. V!. Ml': 1 J>r PH *I [ry l>L. lF DENTS <'" 1.0 ' ...iJ )" .30 PL.CIT IJF ECTDEf'*AJ A A fj ... B A D ft A ll l1 ll A I) (f A A LEGEND : A "" 1 Ol:CS, Et 2 OBS, ETC. (I G B A lif:c E A A DA c c CA E AA A A A A B A G E l I -" --+----+*----+--*-***+---*-** ... -.... *****-*+**-***--****----**-**-**-*

      • +-"--** *t*-*u** *****"'I ***************
              • I ** *
      • *****-*t*******--*

--+-** ---..

  • **--.. 1**--.. -******I * * -**** -*+*-*--**-*--I*-**
        • -*+********--****I*
  • __ ., -*-**--* 321 36 38 40 4? 44 46 48 50 5:? 54
n /1() 11
? i'.4 66 6R '70 74 76 70 1:10 * .. r. r C-*-----.. I ... IJ --------***--

..

  • B A t: F [) ..........

fl2 f-cJ ill aq CD w 00 . co

  • 41.:4 0 lGA **** r.c*1 nr. Vb HI .. I i>El" .. 111 I/,, '1 ,' INl!(l.l', At.11;1.JF.

I .:.* j , t** I* HY DE ZE DENTS <= tl 30 DENf*"'6 r---PLOT OF ECTDEP*AI LEGEND: A = 1 OBS, B

  • 2 UBS, ETC. ECTDEF' 110 + .[* ---*-. -* --f ' I ' I **100* -+ I I ::l*---. ----!
  • I --.. **----.... , I 80 + :[------. : ,, I .. --*-"""Rr*-*

+ D I I 60 " I .. :so* + . A .. b "[. !-A

  • I ........ ---.nr--+ .. I **r*------*---I
  • 30 +
  • I . ----. I I 20 + ..

u I .. . I -. *--i-u-* -*+ I I A A A A A A A (I A (f A A A A A A [I A Et Et B A l< [I A A B A A A c B A A A A B A A c B B A A Ft B A C A A A c B B A A G [l A A A A A "Lo----, -. . *--***---* -+ *********-**-*---* .. *-**** ***-***-****-**-........ **; .... . 0 + -+ ---*-**------+*-*-- .,.... f..( .. +-*--*----*- ro ...... --+-------- -40 45 '. ** --* . --.. -""30 35 .. ,-, I" - -*--*--1 , .. ,, *----------------* *

  • A A A A [I (I A [I [I I) A [I E D c E A A A c A E E c Et Et A A A **I***--*****

--* *--------+---------+---------+---------*-- 1,5 /() "/!'> DO El5 90 '-cl Ill (JQ <D w -D :io

  • / .IG(l * .... FCI m.vn MFI l!l::T'IH

'IC4 IJ1 : 4 ? ti1 INN\Y , oiUf.;1.J!'i! 1 , I.IV l>E' . 'lE . ni:Nrn < "" H; .. . , .c > "' ;so r F'LllT DF ECTDEP*AI LEGEND: A = 1 OF<S, Ft 2 DEIS, ETC. ECTDEP I* '19 + f" __ '1'7_-+ ___ _ :1. ,, _ _!; .. -* .. _,,: " .,.1 + 09 + IH + "[ as *-+----.. " 83 + B " Bl + A "--*---,.,..---*--*


" ,,, + 9 " 77 + B .. 75 + + D .. II l +

  • 69 ___ '!:._, __ ,. +
  • A ... --*-* ..... ---*--* 65 *+
  • 63 + =[ : _____ ,...... --*--" l S? + *
  • 53 '+
  • 51 + A A *A A c A A A c B AA A A A A (I A A A [I B A A A A D A c A A :; ! : --...... ----* 4'9 .} + A A

'43 + * '41 +

  • 39 + A A 39 + A
  • 33 + * . -""-3r--*+. 29 + c
  • 27 + A A A A A :1 29 +"-23 + 21 + . IV"' --*+ 17 + A AA .. tl + A -(I A D A -* + .. r--i:s---*

.. ** --+---------+-*-*--* -.. --*--+--*-----*-**-*--t -----***. *-******* .. *-*-*-**-****-****** .... **I .. ...... ...... 35 40 45 "i5 b<* n u[ 1"r-** ________ .. __ _ * * -A A fl .... ***** "j '"' I* /() (I A A [I A ** D 8 A e c A A A " " .. .,., ,,_,,,,.,,._,,_,,,, .............. " uo .............. ,, .... .............. 1.15 'l() Ir. c [I A A c G D A G A A A ***-* ********** "d Ill ()Q CD .p. ::> ')O r :r ** ECTDEP 110 + *-----*-r I I *mo****+ I I ::r *---90 ---! " I .. -----i I BO + :L _ --r-*--.. . 7(5 ...... +*-n I I ----* -, --" 60 + . I . ----,--**--*

  • I !50 ..,.,..---==-=---

+ '. . \ .. :1 ____ _ 40 ,, ! I I s 7 ___ 3_0 __ J_ -* *I. I . ---*-. I .. I 20 + -------r* r_ lU -* 0 I I I I -. + B A A A BA B A B A A A A A A A E A [I A B A A A A A A l1 A A A A A A A 4C4 IGA *** ccr or.vs ML r nFr* 1* 1-1 HY I>F ZF m:.m:s < "" 1\... .I > " :.IO DE:NT,,H> PLOT OF ECTDEPMAI LEGEND: A

  • i OBS, D
  • 2 OBS, ETC. A A B A c A A CH CB B A D i:l cA A E A G D A A A A D A A B A [I A A A A A A c [t (I A A A e A A , ... ; i\ I .. INl*1'1'('

f\l H.;u::, r t. A A A u (I c \'J. fl . " [I [I I) A E B "d Ill .* ()Q CD p. !--' =1*** .. --*t-----+----+--*-**-+*-*- .. *-*+--*--** +***--*-****+-**--

      • -*t-**--*--****t***

........ *I ..*.* *****I*** ...... *****I ........ +***" I *****

  • I************* -t********
            • t ..................
  • -*-**********l*-**-*******t*********--*+****-****-+*-***-***+*--*********t****
      • --* t--**** * **--34 36 38 40 42 44 46 48 50 54 S6 SO 1.<* 1,:** 1..4 t..l. 1..0 10 '12 '/4 76 --n:1 no n;i. °' I'\ I

..

., __ i_'.. . . ... * '_: *. *. Page 42 -8 Merger of 580 Wastage and 580 IGA Bobbin Data The 580 wastage and 580 IGA data were merged to the overall accuracy of the 580 bobbin probe on combined wastage and IGA wastage Defects >= 20% with dents <= 8 mils Dent = O Dent = 2 Dent = 4 Dent = 6 Dent = 8 N/A IGA Defects >=30% with dents <= 10 mils Dent = o Dent = 2 Dent = 4 Dent = 6 Dent = 8 Dent = 10 No. Defects Evaluated 1695 250 368 383 174 329 191 Mean -1.30 -1.54 -2.02 -0.14 -0.92 -1.62 -1.68 Standard Deviation 8.96 7.85 8.52 8.24 8.08 l_O. 60 9.99
  • I *:1 I I *i .. , *'! *I 'i *1 *f " l .. I-* I ,.I
  • r:c*1 DEF' 110 ... 100 ... 90 ... EIO *I* I I I 70 + 60 + A A A (I B 50 + A (I D A [I Cf.IA B A [t.JC F -c A BCA B 40 + CHA H I A A EB I A A AH I A AB 30 + A c: A AD A 1* A .A D I D A A A G I c Et 20 ..... F. A E A I c B B I A A c A I Et 10 + A A c 0 + * !'.ol.10 I Gf., flNI> WI)!:;, DATA HFl:;:GEI>

i6:51 MONDAY, AUGUST 21, ILn - <* lO I AI )m 30 Co* B I HEIDEf' >-=* :W f"'LOI OF ECTI>EPttHETI>Ef' LEGEND: A .,., 1 OBS, Et = 2 OBS, ETC. A A G A A A F'" A c AA A C A CD A BE A AC (I LC AE A l>E -HL A G AED DDCEt E ADE Et c E HG ADAC DD FF HA ti D AIC GBF'EDCD er H A J AJA D HF BC D D HG E A F ICCDA BDC B A c r. A Etl<EllB D C ti A D c A A FEIDEA A A D AD R Et HB E BA AE E c D BA. FA A Et B A c AF A AB A A (I A A A A Et D A AD A [I Et EP AD E Et AB D Et IE B _, HIA B CG ZAK A CF JG IWG F fil) i'.ti<A I< H t CF CHBCGGE A HA DHE A JGE'.D IB A AB A A DC E F c -ti A .. A c "A A A A 9 A I AA A DE CD DB BC BB (I A A A A F PH CHWLIHL B A ID BGCOALi>c B D Et AC AA G HA AE F BA N DLARC HG E *c -it--H *-CAA --AA K B A IAFB CD HF 8. A ---A---FA. A------A B A----*-***--- E 8 PIH J c c c c I c

  • 1 I I ---* *-*---J: _J: . ----_J: II ..... _.J:: " II ___ -]:: " .. --------] . -----a .. ']: " **t V-1' ....

.. .. I: HETDEf' NfflE: Oli5 tlll>llFN .. ..

  • :[_ :[-**

-:-__ _ ' I ..

[ " 80 ., I I T I + r---** I I

... .. ---... --. ,J..,.... I

  • __ T __ _
  • I I "[L' . . -6.....-0

---.--+* ------* "":,,;. :* I "'<** I *

  • 50 + :r-I :l£:L

... -* 40 + I t,._-l I I .. L ______ -*-I -. I

  • I D G 11 B D f" () [C A D G A [l A '.'iOO lGl"l lf,,, *-* WASTAGE **** Fl..D r OF E: CTl>EP*HE"I DEF' A A .A c: A A Ee ll A I l c B F c A D (f c E B A flt*!!) Wl'IBl.l)f.1 I A MEF*:f;E11 DENfS < I Al >* DENTS ("
  • MFTI>EP > ,., ::.*o ECY DENT SIZE DENT,,,*O l ...

A c A (f D A (I c .J C I c i E I A c C! .... F A 1 nus, E< 2 DBS, E:TC .. B B A EID ll BG .. --*--A --B F E F ---E:-1 6: '..11 t11 IN()1W, f\Ut.,W> I : .. ,1., I. c [-----r** lO -----*-is 21 27 33 39 45 5t ............ ........ *I*** . ........... _ .............

        • -*--*--.. *--*!--*--*-**-----**--**---*-*--+*-*--*-*-*-

.............. ________ .. t*-*-* nt f:l" 9:*:i '?9 1 o::; ... HI.° IDET" "'t' l_lot! "'_:. __ ----*

  • I.
  • :I 110 f* r-------1-: -*--1xx-.l 10 V\J + I " I -----. "[ 90 + " I "-------r-" I 80 + ---.. c*-r I . *--+---" n I n I --* I
  • I " 50 + [--I
  • I ... I B -40 +
  • I
  • I A I .J' 30 +A *. I A **.* , ... I
  • 20 + =[ :-:---** * . I *..

--1 c B A c H A A. A AA A A A AA DA ll c fl c '.'*0() 11.;A WASTAGE -F'l...llT OF (I [l H [I B A AA UC DA A DA Cf.I AC AA A A

  • AIJI\ wMr' . 1)(1 I A MEJ**f,[.J*

DENTE> <* I Al >'" *m I>F.: N rs < '"' ... / METDF :P \ '"' ::?() EtY l>ENr S.LZF l>ENT*,,,2 l..LGENO: A 1. m:ir:, J* A A C A A B A HA D H A HC f.I f.I [I [t D F D t (I A. D G I) B D A A (I F E I> I A E A I B D B E'. A u A F A :?. Ol:*S, F'TC. A fi-F c t_ 0 -- .. ***-*** r.-r* **"' f..() ........ **-** 70 Ml* 11'1 r [--" I I* -. . , ******----* .. 1 /, '.'* j t-IUNh1'1", (11.Ji.;l.W."f .1 , .,

  • I* [ [t L L fl I I) c H A c . F c E r A . **-** **************
          • -************-***---*-** . **-*-*****

.........

                • 75 90 c_;*

l"rj CD Vt X>

  • I .. -* ---------* :1 .. -**-*--*--------ECTDEP I [ ------,

I I ::[ ___ *----: --., -I -* .-*---*r " I " I .. c*-+ ". I ". **---'*-* " 40 + I I -------r 30 + I ,,,---r :1._ -.l I I *T _________

-1 :---10 " I I B A A -A* A "Ic (I A A F:t A l'.i A E II A A (I A A A A ::A:lO lGr) 'AND Wllff!.Dfrf'A tU:J\l,[D IGA.-DENTS <. I AJ >m 30 LJA!:iTAf,E
      • DE NT!; < "'. HETI)FP i'"' 2() BY DENI' SIZE PLOT DF FCTDFF'ttHETllEF' LEGEND: A t OE*S, Et [t A A c A c BA A c B A A CN A Ei CH c; B F BA A F B D AE A A AA t [I A I< A c F A ED H E A A FA A D A A A BB B c A A B A F.:: AB I) B (I (<(I A [I A AD A A Cl':tA e c A All A A A EB c A c A I) K l* c J) B D A B A A A

---*-**--I*-....

  • --* *-+ .. *-* **--" -+ .. ---* ....... I * ------20 25 30 . ,,,,,, ...... I . ******* ;_1:[

HIDDEN

  • 40 , J. * ,'.()

111 I T;EI

  • DEtS I ETC. E: A F A i.: ***f ,_ ... , ..........
              • 70 7::-; z A ('" F N [t A " ....... I-.. ,, ....... " -*I ... _,, ..............

+ ... . fl() ...... '"" 90 1** ' .......... ,,

  • ECTDEF' I :[** -i* ; ---mr----*1-*-*

.. ::[*: .. ....;; ...... ___ _ 10 " " + -,---* I I .. --. -** *-*-** *-*--***--------*

l:L_ ___ *-f .. __ If-* I ,. I [I I< !50 + I .;;. " I " . " ., ... , ... '!: :* . **-*--------*-*-****

A B C D .i * -*A -,,,-c

  • A E
  • 40 + :Vi

..

  • 30 +
  • I . I
  • I *:*ii I .,* " I
  • I A B . *--**--*------
  • -. F.: -A c E A A A c ---1\-. A A :co---r--**--

--**---. *-.. , I I :*:.no 1t.o'1 NII> i..1n!il**>co1r1 ru.1.,,_.1:.1* Hd'I m: N n; <: *1 1 _,,.,, .10 WAH I rir;r. .. J)f: NT!:; < ,.. Ml :*1 Jlr: p ) ,,, : *. F'l...O I or ECTl>EP>1HE I DEP A 1:1 A A E B t: A D A C A A c Et **u* E B HY DUH DIZE L.FGENll : t\ t DBS,. E* ***-*+ *-*-** ******-.........

          • .. **. /.() r=-* -

.. .. *

  • OBS, ElC. i'* fl H D Et I I) A A A 11.

1-i11tJ1*,\'r', (\(il,IJ'.:-1

1. I< " c A I< (1 n I.I ,,_.,*(* .. -******---"-

-*---* .........

          • -.. *---*+---------+--------*

+-.. 70 1:10 ) 1. I..

r-.
  • lGA WAfflAC:.E
      • AtJI* Wt1Bf.**>r1IA l>LNTf:l < ,. '/ Al ., "

DENTS < '"' METDf:T' > ,, ::.*o BY DEN I" SIZE DENT::B PLOT OF ECTIJEF'*HETllF.P LEGEND: A 1 fl[IS, B ECTDEF' I '[*------r---* I * -*--------* __ !_ . 80 + I ,, I [---:: ' - ___ "'. ,, I I

. ____ 60------{-
----" I B : ----1-------*c IA " . I r: -*rr-II 1 A 40 + "[[ IA * ;l I ... : I .. 30 + II

.. I ., I "'l. ' --'----. ----u + 10 -----, .. ------' . I ,, I A D lt A c A E F A c A F A A A A A A 0 ' + . E A A E A A A tt A A B B A A B c F c: F G F E D A A A A B E A C A A Et E (i A c D AC A A D E £1 B ii 8 B £1 A Et B B fJ A *-. --..... -'/ii c A A B A A A Et A B A j/, "*'* 111.JMl*llY, (11.11,UF-I

, 1.\ ... 2 Cl[IS, El C. E I L Pf' I) l
CA A A A A G B ft A A ..... -A D c B A A DA Et [I A AA A A . ---* .... *---*** -*--***-.. .. r*----** .. --+-------+---

.. ---*-**t-------**t--*-**-*--* .. -*-****-**--** -*--*-***+*--.. --... -*** ***-** **-********** t** i,() ...... I**** --*-----**-**I*-******-*-*---**--!**** . *....... &******* -*-*-*-*-*****-*****-*

  • -*-**-*******

.. *********

      • --*** ' . . **-------* 20 . 25 30 35 40 45 50 .. ,---* . ------*-*--*---*-

-.. .. t1F I l>ET' ,,,_ ("1,J 70 m 80 85 90 '"d Pl (JQ CD ')) XI

  • I fd\ ANIJ WA!.P .,,,, I A 11Fl':I ,I']) IGri *** I>ENHi <. / AI )-,, :m

!AGE ** l>FNTS < ,, METDFP > "" :.*o FIY l>J:NT HIZE PLO r (IF" ETTl>E.f*HFTOFP l...EGFNO: A ECTDEP I :[----------:-" ... " I ::[ I T--1 " . 70 + " * * .. ..

  • 30 * * + I + A I-----:k--___ 10 --*i--* A A A -*-E. AA c A'B Dfl AEI c B A A -A fl A IJ B A B A A A [I A B A A F [I 0
  • --------:m-. 35 40 45 .. .. *
  • fl e A [l c .,,.. D A c E A A El (I A **-*********-t--

-**-******

                        • -**** **I 60 tll* JT>l:T A DE< CA A A bt:i<< CEt Afl CA AEtA 9 (I F.1 El A A **-**** .. I-**

I ... '., 11* INI .,-,y. {)I.II_,( I I :. ) ' ** '" I** F I c I.I A [I t A Et A -A-A ........ ....... _, *******-* ,._.,,_ ,,,,_,,,. -*+-...... _ .. , ____ .......... _ .. , .... _ .. , ...... " .......* ***-* 70 no .,

  • Page 50 -8 8Xl Pancake Probe -Crack (Circumferential Slit) Defects Detection limit: 35% through-wall for dents up to 10 mils radial with 99% assurance of detection.

No data exists for dents > 10 mils. Sizing Ability: Sizing results are based on circumferential slit data greater than or equal to 35% through-wall with dents ranging from o-10 mils radial. Sample/ Dent size (mils) All defects >= 35% Dent <= 10 Dent = 0 Dent = 2 Dent = 3 Dent = 4 Dent = 6 Dent = 8 Dent = 10 No. Defects Evaluated 380 142 45 15 57 46 46 29 Mean Standard Deviation 2.67 14.71 5.03 16.42 2.49 10.69 4.07 6.31 5.79 11. 79 0.93 6.95 2.04 11.29 -11.72 23.27 For comparison with the 4C4F crack results: Sizing results are based on circumferential slit data greater than or equal to 52% through-wall with dents ranging from o-10 mils radial. *Sample/ Dent Size (mils) All defects >=52%, Dent<=lO No. Defects Evaluated 308 Mean Standard Deviation 0.51 12.54

  • * *
  • ECTI>Ef' 110 100 <jl() ao *I* + *I* + + I I I *+ I I I + I I I + I . I I + I I I + I I I + I I I ... A A c A A A A A B A A [I (I A A (I A A 9 A A A A A A A A A A A c A A A A (I A A A A A.A A A A A ** A A 9 A A A Et c A A A-1:1> .I l:l*:t1L1:

... Fl .. I 'I I v:.> 11r:*1 l)Ef' I H llf::N l"l < ,. 1 (l ti 11 ... b / HEH>U* >"' F'l.l.ll llF FCJl)l.'.F,.*ME.ll>Lf'* 1..rr;EN[): A,.,. 1*llUS, B D A A A F c A D A [I Et A (I [C [I c c I) c c: A A F 8 A E c B E [I E G II E B [I A c B c A* c [I A A c D c A Et F A b A A A A c A .I F.t A A c A G c: A A A 9 A A Et A c c 9 A A 2 OBS, A c A B c --9 c -*A ... **-**-* ..... 16:53 MONDAY, AUGUST 21, .9 z R N G fl c D A iB ,-j --__ j: _ _J: __ ._].: II II -*-***] II .. .. II J" II " .. ., " -*-]: ll " Ji VI \U .. --+--*-----+---*--*---l*----**--*-+--*-**---**--l*---*-*--****+-*---*---+-----*- .. -+-*--*----+-***--*---*i--------+-..:-...;.:.. ___ +----**---+-*------+-------*+-------+--30 35 40 50 55 60 65 70 75 BO 85 90 95 100 105 HETDEP " 20 OBS HIDDEN .. ]:

  • '
  • ECTDEP I [.. -----------. -' -------*--------*!****--*-.

110 + I I '[-* ;-*

  • 100 + . -------*!--**-*

,. I I ,, 90 + **r--1----- __ : __ .. **-_ : av + El I

  • I C -A-: j -'.: 70 -E
  • I A
  • I C El A
  • 60 + D C A 11' .-' --,.-. ""i) -::;:( , o .; .. A--* I C
  • I G . I A *-.:.'j 40 +A *W, I B " ---T*
  • I A
  • 30 + L*--*r *---*--* I I A .. -'°--*+ c .... I C
  • I
____ 10*-**-: . I c B (I A B A-A .... A A A A J:t ux i

... ECT . !. V!'l HCT m: r* n1 DENTS ( "" j 0 *. *nu* > .,., :';;;* f'LOl IJF ECTl>EPvHETDEF' LEGEND: A a l UBS, fl D A A F c A D A (I A A B Ee c B c D c c A F *9 A E-E G B 8 B c 1:: Ee c A B c c F .A A u, : '..'i.'J HIJND;W , I :'.1 I. , 2 ClflS, ETC. 1. i(. z R N G [I c I) A 'U Pl (JQ CJ) 0 + ------.,.._*;;;+;;...:_;_.;...;_* __ _.:._ ___ +;;_.:. __ ... ______ ... _. ____ .. +--.. ---f*-**-*-----f*- .. ---* ,._,,_ ... _ .. ,. ----*-........... _, ......................................................... -........ --***+-****--

      • -.. **********+****-" -*+* .. -* .. -*******--

.. --.... ----* .........

        • -*-* ..........

"' :52 :54 56 58 60 l.2 64 66 68 70 72 * *74 76 70 BO 82 84 f:l6 BO 90 92 94. 96 'i'B l.00 :L. ...

  • H" '1 DET' lO * .. NOTE: .. 20 OBS H

____ *_; .. IDDEN **-** -* * - r 100 * ... I T r-----.. 90**-*** ... ::r-* ----.. 90 .. , :L ______ 70_ .. " + i I I I + I I I I "t* ... "h* I : __ {

  • I * :50 + *---*--1 I
  • _,, I "I_ ___ -*-----*---T
  • 40 + I rr* -----r---I * . --"30 + :i:-**-
  • + I I I I + A A B A A A 8 A A A A c B A A A A B A B A A A A A A A A B A A A [I c A A A B>'. t 1:1 *:ACV F'l.DT OF n::n>EF'MMElI>EF' A A B A B c B A A A (I [I A A [I A A A A A A B =1*** -10 ..
    • --**** -** 30 35 40 50 !)5 I,,() _,:[ _______ _ ..
  • l"CI f,).VS r1i:1 l!EF* n1 [IY l>E . 'l:E ME I l>FI* .

DENT=O LEGEND: A t OBS, Et B (I A A E A c A ,_ .............. .... 7() Ml"IJ)r:I* t () 2 OEtS, ETC. A c A A A c D A A MllNl>.'IY, f11.11,IJL I :*t, M G F l.* A A A A .... , .. -*****-**t**-***********-*

            • ...... , .................

_ ..... .. no O!"i 9() *n:i I 00 , ..*. ) .... **-*** 1 "'CJ ro 'Jl w ')) l-" " ** 100 + I *--*--* r* I I 90-*** ---+ I I [--*----*-.--

-

+,' .. I I *r--*--* --:t __

A " I " I T mm " I .. 50 + **r ,--*-: _ ..... I I A I*
  • 40 + A
  • I A T----*-* I A I A + (I " I :r-:-----r-

.. -* .... --*-.. I A I I l'lld. CW\('I( F'LDT OF EClDEPt1METUEP A c (I A A D A (I A .... rc*1 ll. Vh 1w on*

  • zr METJ>H*

A ML I lllJ** I 11 1 DBS, n :'.! UBS, ETC. 11.::.1 i1f.lNll(.iY, f.\1.11,U!::.J

.
;, ,,, ... ' E F Jl Et A

.. +-----""---*i*--*-*-----*+ ............. ... **-*******-*-**

            • '('() ...... I* ................. -i ..........................

.. . ..................... -.......... , .... _ ................. +-... ,_, .. _ ........ i .. -... * -.. --*-----30 35 40 45 50 .. * * *h.} (,() ... no <;>()

1. 00 1 M['l IJF:I'
  • , '.I :r ** .. _I .. 'l =r ,, *
  • ECTDEf' I I i I I j" I I -----r-. -*97* 86 85 I I + + + --* 1!14 *---*-+ 83 + 82 + *m** + 80 + 79 + l' ---* : ,. 76 + -*** ***-7s--*-

-*+. .. *74 . + .. 73 + :[ "?:i*--+ .. 71 + 70 + 68 + 67 + :r-*


: .. I .. " =1 " .. I I I *-**-**---* I I I I I I --*-.... I I . , .. *c--**. -** ,, *--*-***-** *--0>-1 l.l*:ACI<

PLOT OF ECTDEf'*MEl DEF' r:rr 11.vi; l1Y OE 7.E MFTDL DENT=3 LEGEND: A A A A A A A A B c A A A **-*** *** ... 71. r1F 11>r r* Ml': r l>EP-1 H l * '. d 111.lNJ;(,_Y, Al 11.Ub"I ;" 1 , 1 '.'. *'-1 OBS, B

  • 2 OBS, ETC. 1-tj CJ) \.J1 U1 ")()

. I

  • 1':.CI r**

IW DE* lL HETI>H" DENT*=4 r:'L.OT OF ECTDEF'lfHETOF;F' LEGEND: A r 100 + I ***--*-* ---**--r-** I I <,Jo-* .. + I I ::[ ___ -BO ---1 *-1 -I I ;r---70 __ ! __ _ ,,[ I .. .. .. I I I

6:.. ...
  • I * .!50 + 'f I : . -
  • 40 + I *

.... * .. ' a I :[ ___ i .. 20 + .. -, I I " 10 + A [t A A B A A c 1i .. (I A A [t A A A A A A A =r-**------, ,. --+---------+-**-**-*- ---***-**-*!*****-*-*****-*********--*-

      • --*** .. ***************-*
        • +*** .. * * [I A A A c [I c [t ....... *I****-* . I ';'{) Ill l(.'l:'I*

ML.T btJ*TH 1 OF.IS, E* 2 OBS, ETC. .J A A B lt I** ****** ...... ** ***-* .... !********-***-**

      • -**** .... , .....................
                  • -*

-**-***-*** ........ ******** 00 n<* n:**; <10 *?:', 1 '><> ! r ' 110 r **100 ,, .. I :: -* 90 * + I --i . I I + I I 1 *-I + *-*-, I I -* ..... --*-*-. I I I "[---70"---+ A : " I A * ; . + 60 ---,-1 [:.*' .. : . I .. .. "F .. ,-.. .. 50 + D I B ----r-A __ _ I A I A + I 30 + I I I -------' 20 + nx 1. PLOT IJF ECTDEPttMETDEP A A B E c [t A . n:rp***v!:i f.1Y l>EI ; :r.E HE'I DEP DENT=6 LEGEND: A HFT DH'l'H l ,t, : . ..! 111.lNDAY , AUG US f :" 1. , 1 '. * .II 1 IJ[tS, [I 2 OBS, ETC. '-(I A A =[* -.. --+----+----+- .. **--+--*--i**- .. --* *t---.. -*-*t-*-*- .. --+ **--*-.... *i*-*-*-........ -.... *-*t ...... _ .... *i -....... *I"-"""* ... I ... .... , ....... *---1*-.. *-... _ .. , ... -..... _ .. , ....... _,,_ .......... -.. -*+-*-.. -*-..... --.. -.... *+-*-.. -*-*I*-"*"" ...........

  • -*-*+*-.. -.. . 52 54 56 50 60 l.12 64 61.. ,1,(1 70 72 74 '76 70 . no B4 06 1:10 9<> 'i'2 94 96 9EI 1 (>() ME:: 1 nu*
  • '.[ ___ ------* --:1.10 + ,, ., : 80 + "L' : " . --*-*--... .. -.: A -* I I .. -,..,....-...,.,r---:i:-
  • *
  • 60 A +A
  • -. --r---* i : 'L ____ .., '(I *
  • 50 + A I A :r# I A
  • --_ J_ E * :L. 30
  • 20 I B I --, *-I + ----I I I ---, + f.IX 1 .I< PLOT OF ECTDEP*METOEF' c A B A A A B A B A * [Cl I>' VS HE.I DEF'IH IW DEN ME:l DEF' ,_ . DENT=B LEGEND: A 1 OBS, B 2 009, ETC. **i r* E li A --+----+----+----+----+----+----+----i

+----+----+

--* -+----+-----f

  • -I -........ *I ............. " * ...........

., ....... _. .... _., ........ _ .. _.., .... -........ t-*---...... ___ ,,_ .. _. .... *-*-.......... -........... +--*-* .. *52 54 56 50 60 1..2 ,,., 66 l,(:J 7t) *7;* *74 u, 70 no El2 EM nl, nn 1;10 *n 94 9t.. ?D 1 oo .. .. 'l: ___ _ "* .. ______ ----* ..

  • V1 00 " ,.
  • B)< l

... Fl. l r** VS l'iLT l">El*' I l*I 1. b. l'i* lNI *(\Y, f ;: 1 , ..... I* . HY l>EI lf.: MEll>Ef' DENT*,,10 r f'LDT OF ECTl)Ef'ttt1ETDEF' LEGEND: A i. (J[lf). (I ;!. OBS , ETC

  • 90 + I ---T I I 'l*--*.... --*00 *-**---+* I I "[ .. " -------* -*1 I 70 + --**---**-"j I I **c----, ., 60 + " I .. -.... *******-*

... -*. .. *1

  • I N I ..
kt ____

-*l. I 40 + .. ..-.-----.-- --+ I .. ------. *-* { 30 + I :1* ---*r -20 + I I :r---1:--l . I A

  • -:-+----+*---*-+-----+----**----*-*+-*******--****-*-
    • -**-** ... . . . . -..... 40 41 42 43 44 41.o 47 *
  • --**---------****-...... A A (I H f' A A A A A A A A A A A A 9 D A ***-!-*-****
  • -***+*****
              • I ***** ** ***I*** *** ** I**** ******I * ** * ***-f*** ****** i ***** *******!********-
  • *!********-****I********

--f * **-*-***of*******-*** i*-*** *****+************ I**** **********I*-**** 4A 4'7' 50 !:"ii. bO 6:1. 6::.' b4 Mr::*rnFF >tj Pl ()q (]) U1 *.o 00

  • -*-*. *'-. ,; .* ..
  • Page 60 -8 4C4F Pancake Probe -Crack (Circumferential Slit) Defects Detection limit: 50% through-wall for dents up to 8 mils radial with 100% assurance of detection.

50% through-wall for dents up to 10 mils radial with 88% -assurance of detection. No data exists for dents > 10 mils. Sizing Ability: sizing results are based on circumferential slit data greater than or equal to 52% through-wall with dents ranging from 0-10 mils radial. Sample/ Dent Size (mils) All defects >= 52% Dent <= 10 Dent = 0 Dent = 2 Dent = 3 Dent = 4 Dent = 6 Dent = 8 Dent = 10 No. Defects Evaluated 297 94 32 16 46 46 46 17 Mean 5.73 2.01 0.97 11.19 14.17 3.78 6.24 11.12 Standard Deviation 12.53 9.60 5.98 8.31 14.45 12.17 13.29 18.18

  • 1 **! *.! *1 * ** 4L*l I l*:1iO: U.I: l>[N'l :.> < '"' 10 Ml.L!.i I V'.:> 111:. I DEVIH MCI DEF' 52 -*** \ 17:01 MONDAY, 21, 16 ,-i E:Cl DE.f' 110 + 1*1..01 rn** ri::n*LF't<MEH>Ef*

I. EGENI> : I*) :*" 1 OEtS, Et 2 UBS, ElC. _J: 1.00 90 80 70 60 50 40 30 20 NCrtE:: ... + I I I I A + A I I A I A Et + I) I Et I A I A I B + c c B E I C + A A D A + D I A I A I B I + I It I I I + A A A [I A A [I A A A A A ll A [I c [I A A A A E B A 9 A A A c A A A A f' [I [I A c B D c D c [I c c c A A A [I E c A A c A A A [I D [I A A A [I A z 0 *e:* A A D [I (I A [I [I [I A A c [I A c A [I A --*!*--*--+----+-*---****

  • !*-*---+*-*-*-**-+---*-*-+**--*----+-*--

.. -+-*----... --..... -*!**---*-+-**-*--* +-*----+---*- .. +*----.. *----+-----+-----* .. *----+--*-*-+-*-*--+----+----+----+-- 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 82 84 86 BEi 90 92 94 96 98 100 MET DEF' 4B ores Hll)l)EN J: ].: II _J:: *II " J" ,, " _J .. .. _J: " ... 'D" &J"

  • _CD .. " " I:
  • l 110 + r.* *-*----100 + I I "[-----* ----, .. I " 90 + -______ ,, _____ , I I **c-*-*--*-1 A

-*-... : : I A I A "[----ro--- + r::. " I A : ,?\-" I A .. 60 + **c-----*-T --: --. ---*------l ; :50 + A

  • I A :p . ----: -A --: ... ---! I
  • I "[ ______ *---r-.. M I .. 30 + * -* ... __ ,, __ -" 1 I I .. 20 + 4l.A Cf'(ACI'.

Ecr. w**v*:* l.1 y !>Fl z.r HE I DH' DEN'l"'-'0 PLOT OF ECTDEf'*METDEf' l.EGENI>: A A B c A B B c B c A A A E I" A 111. 1 or1*n1 1. ()(lf:i, [I B B A A c c 9 A I I \°*.\ t11JNl)()Y, 2 OBS, ETC. fltu .*

    • t, ,,,,.. *-1 l( F H A "[*--*-,*

.. . --+----+*----+- .. --***+--*..:.-*+-----*+ .. ---*--+-*- .. --.. ** ... _,_ .... , ........ -............. __ ,, .. --_,_ ... _____ 52 54 56 58 60 t..?. c'14 66 l10 7() 7"2 .. , .......... I * ........ *I ......... " ......... _ ...... , ................. ,,, __ , ..... f .. -* .. *-*-.........

  • ---*+ -*-.... *-+*-* ... __ ., ........ -*-*+ ..................................

_ 74 76 *m no n:.?. EJ4 o& EID 90 '?2 1 14 "JI.> 'i'IJ i '-'<> ME' I llFr' I* 1_1:[ ____ _ * * "U Pl ()ti . CD 3' N 00 -,

  • ECTDEf' 100 + '[ .--.. -**-

!----" .. [--:: _____ --* " " .. * * + + I r I 70 + .. IA *}, 60 +A . '-'-* . *-----:1'. I 55 + :1 ::*" --

          • +* IA I 'IC'\ CHACI< ****[CT l'" .. VB MLT l>E.F"IH UY l>EI . ZE HETl>EP' DENT=2 PL.OT CIF ECTDEf'*HETDEF' LEGEND : A
  • i OBS , Et ...

.. ----**** -.. -. -***** .... -.. .. i1L'Tl>H* .. --*

  • I ? : 01 MONl*AY, Alli,l.Jb I ;:_*l., 1. 2 OBS, ETC. ** "' p K A A A ... -..... ,,,_,_, 1()()
  • r-----ECTDEF' I I :[.

--: " I I I " -* + 91 + 90 + :a**. B9 -*-!*--.. :. 87 + * ---n6*-***

    • .+
  • B:S + .. 04 + *a-** ----.. ,.;". S2 + " :*; Ill + *.. -mr--**+
  • 79 + .. 79 + [. -71 +-*': 76 + { 7S + : *... **--r...-*---

+ 73 + 72 "[H 71 ,. 70 -67 + + -**--+ + + + I ----*-** I I I I I Pl...CJT OF EC:ll>Ef*HETI>Ef'

1-*-*-*-*--l----------*---*---**-----**-*-*--*****-*
          • -****-*******

-***-*. ***-**--*-**

        • -***********

.. .. -{* . *

  • Fl: I MF I DFI
  • 111 llY l>FI ,!zE HE:."T DEF.

LEGEND: A A A t B A B A A A A **I*** "?1. 1 OBS, B 1 7 * "l Ml.INlliW, 1)111 .* U::. I ,:*1 , .i ,. 2 OBS, ElC.

  • r ECTDEf' 100 + [****-*-*--r--: -..

___ J. I w I .. '.:L ****- -A A 85 + A "[*---.---* ---: -------90-****- .. l A D I A I ** n5 + A .. r i I * *--.. ---*1--11* a I A

  • 70 + [-,,,---.-.
  • j, . . I : : *--.. ...,& ... 5..---*-!-

..

  • I I :[ __ + I -I I :5:5 + I I I --*--50 --"' I A. I A 4f' 4 I( ... LL I l ,,,*-*1\i'";

.,. . . PUJT OF FCTl>EP*METDEF' , A A A D t: A A c A lW DH: .*ff MF'l l>EF" :':;:;! LEGEND : A Ml . T f)f:J"l ll j r'. 01 Al.J(,l.Jb I ; 1 , ** 1 **

  • i 1 O(IS, Et 2 O[tB, ETC.

.. **----.. **--"-......... _ ......... ,................

  • ....... . ... , 52 54 56 :58 60 b2 c'.4 61.1 68 70 ****** ..... ******* .... ' 14 '711 7f'l I* -.........

I ........... -1 .... -.................. -.. : ... ,. __ , .. -*+ ..............

  • I*-............ , ............

_.,._ ........... + ... " -...... , ...... .. no n::.! EM nt.i nn *Jo *1:: 1 ? 4 91., *1a 1 oo MFll\FI' [-------.. I* 1'1 ---*-** ***--* *

  • 110 + I f "*---* -*: -100-----... I I :r--*-:--1

*-i -. I I "[ ___ ! : -.

---: " I I =c--*70* ---t A .... A

  • I A
  • 50 + I --;(() + A I .. I ..

s " I 30 + ., -------I A I .. I -* 4C4 u:;:Ac::I< .: .. EC r D!*" . I v::; Ml::T j)['l"lH PL..OT OF ECTDEP*METl>EP A A 9 D F.I A A A [I A lW J>EN. . ME'! DE: P l..EGEND: A 1 DEIS, F.t 2 ODS, El'C ... M [I A r -* .. +.-* .. *--*t---*- ... --t .... --* .... + ,,,,,,_,,,,.I .................................. _,,,, .. ,...... .. . I *--.. ________ 52 54 '5b 58 60 <'>2 <'>4 66 b8 70 14 71. .. , ....... *--* ...... ,,,, __ .. , .. *-*-*-* -t*-,,,,_,_ ......... ---+ ,,_._ ....... , .. _,, ___ +*---*---! ,, __ ,_ .... -f ............. , .. , __ f'IO EM 06 011 90 94 96 c;>f.l t '>0 *m Ml*. I OFI' ... ----------


*v -

  • -*----------*

r

  • HO + I ..... *-**-;----.-. I I .... I " I ::[--90 ---r--* ,, ... --*---* -I ,, I " I .-----J
  • I " I A =L 70 *----* -* : * ... " I .. 60 + B

___ -_ -__ -_-_ .... [

  • 50 +
  • I ,,,-,.
  • . I : --**--110

---! Ic ,. I A I A :[----=----1 I I I .. 20 + 41:.4 Cl*:AU< f'LOT OF F:cn>EP*METDEP A B B A [I B A B A A nr--*---**-**---I " --... ----***----+*-*-*--*I*-*-*--+- ..

  • -***I****-****

... I**-. *-*** t******* * , *-** :56 58 60 <'>2 t.4 " tin -,,) .. *c---* I "' " ---.. * * *** FCf v<*:***-1 MF.I llEF*IH BY on'* :* l.F . *I T:? METJ)Ef' , LEGEND: A I. 74 . ***** -;'i. 1 OBB. B

  • 2 OBS, ETC. I** *10 -** O* w.* *******! ****-*** EM f'I(:, 1 i' : *::* i Mf1Nl*1W
  • Al 1i:.t.ff.

I ;*: i , *-**** *6********

    • -*!*-.. *-*-****I* .........
      • -**** **-**I on 90

'74 '71.. ....... 'i'B I( F ***-*****+-***** 1 ()()

[_ ,, "[ " "
  • uo + I T --1 I + ! I ***-------*1 I + I I I **r.---.--
L ..

{ I I =e ------po--: ,_, __ " I 60 +A I r*----T : *: ---l: " .. [-.. I I ----1 I 30 + IA I I I 20 + PLOT OF ECTDE:f'*METDEf' -+--------------------------------------- --52 .. ._1:[* --------". .... *---* ----*-* * ... EC! HL:T l*FF-"IH ICV DEi * 'f: METI>ET' .:'i2 LEGEND: A 2 OBS, ETC. A *--------------------------*--- --4 <'>3 Mt::. IDU"

  • / ... ! . ... Page 69 -8 MRPC -crack (Circumferential Slit) Defects Detection limit: 35% through-wall for dents up to 10 mils radial with 98% assurance of detection.

No data exists for dents > 10 mils. Sizing Ability: Sizing results are based on circumferential slit data greater than or equal to 35% through-wall with dents ranging from o-10 mils radial. Sample/ Dent Size (mils) All defects >= 35% Dent <= 10 Dent = 0 *Dent = 2 Dent = 3 Dent = 4 Dent = 6 Dent = 8 Dent = 9 *Dent = 10 No. Defects Evaluateq 425 135 45 16 60 62 46 15 46 Mean Standard Deviation -8.82 15.87 -9.05 16.21 -9.04 14.17 -17.56 11. 78 -11.40 11.88 -6.05 19.23 -12.22 8.20 3.07 21.32 -5.74 18.41 For comparison with the 4C4F crack results: Sizing results are based on circumferential-slit data greater than or equal to 52% through-wall with dents ranging from o-10 mils radial. Sample/ Dent Size Defects (mils) Evaluated Mean Standard Deviation All defects 315 -11.30 11.89 >=52%, Dent<=lO

  • --. 110 + I I ,------,--.

... I I .. 90 + "[---,-" I ,, I .*

  • ao *--+ I ,, I :[ 70 !----,, I * --------**-r ---* +

60 -:-* *-* i\ I .. -§---...

  • I
  • I * -----r-**F .. o + :r:t_ ---* ----. " I *
  • 30 + "[

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  • * ,. -Page 80-8 Conclusions based on the qualification project are as follows: 1. The 580 bobbin probe characterizes wastage type degradation more accurately and consistently than the 540 bobbin probe. Both techniques have a tendency to overcall the depth of the defect by approximately 3%. The qualification results for the 580 and 540 bobbin probes in conjunction with the Miz-18 tester are superior to that of the Miz-12 tester in both dented and dented regions. 2. The 580 bobbin probe has. a tendency to undercall the average IGA front by approximately 4%, however, it provides much more consistent tion than either the 4C4F or 8Xl pancake probes. Taking both the mean and standard deviation into account the 580 bobbin probe provides the best overall characterization of IGA. None of the three probes accurately size the IGA maximum penetration depth. 3. The 8Xl pancake probe and the MR.PC have crack detection capabilities which are superior to the 4C4F pancake probe. Both the 8Xl and MR.PC are able to consistently detect cracks at 35% through wall versus 50% for the 4C4F. 4. Neither the 8Xl pancake probe, the MR.PC or the 4C4F pancake probe are capable of consistently sizing the depth of cracks * \ v

Page 1 of 136 ATTACHMENT 8-A *---, WAS DA TA. 58(": I -ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH 168 A 1 74 72 73 B2 * --0.110 0.110 0.029 J.' 168 A 2 74 74 74 74 t --0.110 0.110 0.029 60 168 A 3 75 76 76 74 * --0.110 0.110 0.029 60 168 A 4 75 74 73 75 t --0.110 0.110 0.029 60 168 B 1 64 66 65 64 t 2 0.110 0.110 0.029 60 168 B ,, 74 79 79 81 t 2 0.110 0.110 0.029 60 .. 168 B 3 72 74 79 77 l 2 0.110 0.110 0.029 60 168 B 4 52 NGD 62 65 a 2 0.110 0.110 0.029 60 168 c 1 70 66 67 66 a 4 0.110 0.110 0.030 . 63 168 c 2 69 72 70 72

  • 4 0.110 0.110 0.030 63 168 c 3 77 71 77 73 a 4 0.110 0.110 0.030 63 168 c 4 45 NGD 44 41
  • 4 0.110 0.110 0.030 63 168 D 1 82 71 72 69 ' 6 0.110 0.110 0.030 63 168 D 2 50 42 38 49
  • 6 0.110 0.110 0.030 63 168 D 3 66 67 66 67
  • 6 0.110 0.110 0.030 63 168 D 4 NGD NGD 44 50
  • 6 0.110 0.110 0.030 63 168 E 1 82 73 80 72 ; 8 0.110 0.110 0.030 63 168 E 2 36 45 28 30
  • 8 0.110 0.110 0.030 63 168 E 3 41 37 28 23 a 8 0.110 0.110 0.030 63 168 E 4 48 NGD 45 42 a 8 0.110 0.110 0.030 63 168 F 1 43 50 53 49 a 10 0.110 0.110 0.028 58 168 F 2 45 -42 40 / 42
  • 10 0.110 0.110 0.028 58 168 F 3 --37 43 31 35
  • 10 0.110 o.lio 0.028 58 168 F 4 40 NGD 44 ND a 10 0.110 0.110 0.028 58 *---I 169 A 1 60 60 62 60 a --0.109 0.109 0.028 58 \\ 169 A 2 64 64 62 63 * --0.109 0.109 0.028 58 169 A 3 62 64 64 64 * --0.109 0.109 0.028 58 169 A 4 64 64 64 64 a --0.109 0.109 0.028 58 169 B 1 60 64 67. 59 a 2 0.109 0.109 0.029 60 169 B 2 71 74 75 77 a 2 0.109 0.109 0.029 60 169 B 3 66 67 66 64
  • 2 0.109 0.109 0.029 60 169 B 4 69 68 68 68 a 2 0.109 0.109 0.029 60 169 c 1 51 56 51 58
  • 4 0.109 0.109 0.028 58 169 c ,, 68 68 69 71
  • 4 0.109 0.109 0.028 58 .. 169 c 3 63 63 61 64
  • 4 0.109 0.109 0.028 58 169 c 4 60 60 61 62
  • 4 0.109 0.109 0.028 58 169 D 1 64 64 62 64 a 6 0.109 0.109 0.029 60 169 D 2 72 74 72 73 a 6 0.109 0.109 0.029 60 169 D 3 69 70 65 64 ' 6 0.109 0.109 0.029 60 169 D 4 62 62 63 62
  • 6 0.109 0.109 0.029 60 169 E 1 59 63 62 60 l 7 0.109 0.109 0.028 58 169 E 'I 59 57 58 57 l 7 0.109 0.109 0.028 58 l. 169 E 3 67 68 70 66 t 7 0.109 0.109 0.028 58 169 E 4 60 61 58 60 *-7 0.109 0.109 0.028 58 169 F 1 63 64 67 65
  • 10 0.109 0.109 0.028 58 169 F 2 60 64 60 66
  • 10 0.109 0.109 0.028 58 169 F 3 79 70 75 73 t 10 0.109 0.109 0.028 58 169 F 4 66 66 66 66 l 10 0.109 0.109 0.028 58 170 A 1 57 58 60 60 * --0.109 0.109 0.029 59 170 A ,, 59 60 58 59 l --0.109 0 .109 0.029 59 l. 170 A 3 62 62 62 61 l --0.109 0.109 0.029 59 *--170 A 4 62 62 62 62 * --0.109 0.109 0.029 59 --170 B 1 67 68 66 68 l ,, 0.109 0.109 0.029 59 ..

Page 2 of 136 * ., WASDATA.580 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH i:DEPTH ----------------------------------------------------------------------------------------------- 170 B 2 68 69 68 68

  • 2 0.109 0.109 0.029 59 170 B 3 65 63 63 63
  • 2 0.109 0.109 0.029 59 170 B 4 66 63 64 63 ' 2 0.109 0.109 0.029 59 170 c 1 64 64 63 68
  • 4 0.109 0.109 0.029 59 170 c ., 63 63 63 63 ' 4 0.109 0.109 0.029 59 L 170 c 3 57 57 57 57 ' 4 0.109 0.109 0.029 59 170 c 4 62 63 63 66 ' 4 0.109 0.109 0.029 59 170 D 1 63 64 62 69 ' 6 0.109 0.109 0.029 59 170 D 2 57 55 67 57 ' 6 0.109 0.109 1).029 59 170 D 3 62 66 64 62
  • 6 0.109 0.109 0.029 59 170 D 4 64 67 67 61 ' 6 0.109 0.109 0.029 59 170 E 1 B2 76 B2 81 ' 8 0.109 0.109 0.029 59 170 E 2 63 65 6B 6B ' B 0.109 0.109 0.029 59 170 E 3 76 76 75 76 ' 8 0.109 0.109 0.029 59 170 E 4 73 .B2 49 B2 ' 8 0.109 0.109 0.029 59 170 F 1 6.3 60 63 57 ' 10 0.109 0.109 0.029 59 170 F 2 54 56 54 54
  • 10 0.109 o.109 0.029 59 170 F 3 57 62 57 55 ' 10 0.109 0.109 0.029 59 170 F 4 NQD NQD 65 65
  • 10 0.109 0.109 0.029 59 178 A 1
  • 97 96 97 ' 0.050 0.050 0.049 100 17B A *2 97 97 97 98 . 0.050 0.050 0.049 100 178 A 3 99 99 99 98 0.050 0.050*-* 0.049 100 178 A 4 97 96 9B 96 ' 0.050 0.050 0.049 100
  • 178 B 1
  • 75 74 74 ' 0.075 0.075 0.037 BO 17B B 2 74 74 73 73 ' 0.075 0.075 0.037 BO 17B B 3 Bl BO 81 80 ' 0.075 0.075 0.037 BO 178 B 4 75 74 75 75 ' 0.075 0.075 0.037 80 178 c 1 ' 53 51 50 ' 0.110 0.110 0.027 59 178 c 2 52 51 52 52
  • 0.110 0.110 0.027 59 178 c 3 61 60 60 60 ' 0.110 0.110 0.027 59 178 c 4 51 59 53 . 53 ' 0.110 o*.110 0.027 59 178 D 1 l 42 42 43 ' 0.190 0.190 0.018 39 178 D 2 41 41 41 41 ' 0.190 0.190 0.018 39 178 D 3 46 49 48 51
  • 0.190 0.190 0.018 39 178 D 4 42 41 41 43
  • 0.190 0.190 0.018 39 178 E 1 ' 22 21 21
  • 0.190 0.190 0.009 20 178 E 2 20 22 21 18
  • 0.190 0.190 0.009 20 178 E 3 25 25 25 26 ' 0.190 0.190 0.009 20 178 E 4 21 20 22 17
  • 0.190 0.190 0.009 20 302 A 1 67 71 77 73 ' 2 0.196 .688 0.038 78 302 A 2 74 74 72 76
  • 2 0.196 .688 0.038 78 302 A ,. ,, 71 71 72 72
  • 2 0.196 .688 0.038 78 302 A 4 73 74 74 74 ' 2 0.196 .688 0.038 78 302 B 1 63 59 63 57
  • 2 0.196 .750 0.030 61 302 B 2 62 65 63 63 i 2 0.196 .750 0.030 61 302 B 3 62 63 63 SB ' 2 0.196 .750 0.030 61 302 B 4 61 62 60 bl ' 2 0.196 .750 0.030 61 302 c 1 33 27 30 ND ' 2 0.196 1.500 0.017 35 302 c 2 NQD NQD NQD 42 i 2 0.196 1.500 0.017 35 302 c 3 43 44 45 44 ' 2 0.196 1.5(10 0.017 35 ... 302 c 4 ND ND 40 34 i 2 0.196 1.500 O.Oli 302 D 10 1 ND ND ' 2 0.196 .688 0.010 20 302 D 2 NQD NQD 30 27 * " 0.196 .688 i).010 20 i.

Page 3 of 136 WASDATA.5BO .,. .. ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH i.DEPTH /* '-, , ' .. ----------------------------------------------------------------------------------------------- 302 D 3 51 43 36 42

  • 2 0.196 .6B8 0.010 20 302 D 4 ND ND 16 17
  • 2 0.196 .6B8 0.010 20 303 A 1 73 75 70 71
  • 2 0.5BB .B13 0.036 73 303 A 2 73 71 74 75
  • 2 0.5BB .B13 0.036 73 303 A T 74 72 74 75
  • 2 0.5B8 .B13 0.036 73 .. 303 A 4 BO 71 7B 77
  • 2 0.5BB .B13 0.036 73 303 B 1 56 57 57 56
  • 2 0.588 .688 0.028 57 303 B 2 59 59 59 59
  • 2 0.588 .688 0.028 57 303 B 3 56 57 55 57
  • 2 0.588 .688 0.028 57 303 B 4 5B 57 57 55
  • 2 0.588 .688 0.028 57 303 *c 1 33 35 33 34
  • 2 0.58B .688 O.OlB 37 303 c 2 50 4B 48 49
  • 2 0.5B8 .688 O.OlB 37 303 c 3 39 40 41 41
  • 2 0.5B8 .688 O.OlB 37 303 c 4 41 41 39 41
  • 2 0.588 .688 0.018 37 303 D 1 19 25 23 34
  • 2 0.58B .813 0.015 31 303 D 2 34 35 33 34
  • 2 0.588 .an 0.015 31 303 D 3 37 37 37 35
  • 2 0.588 .813 0.015 . 31 303 D 4 34 34 34 30 i 2 0.588 .813 0.015 31 306 A 1 78 82 Bl B2
  • 4 0.196 .68B 0.040 82 306 A 2 BO 71 77 so l 4 0.19b .6B8 0.040 82 306 A 3 78 75 77 78
  • 4 0.196 .6BB 0.040 82 306 A 4 81 79 82 81
  • 4 0.196 .688 0.040 82 306 B 1 62 60 66 63
  • 4 0.196 .750 0.029 59 -306 B 2 63 64 62 64
  • 4 0.196 .750 0.029 59 ** 306 B 3 63 61 62 62
  • 4 0.196 .750 0.029 59 / i . 306 B 4 65 58 61 62
  • 4 0.196 .750 0.029 59 306 c 1 40 33 41 46
  • 4 0.196 1.063 O.OlB 37 306 c 2 46 4B 53 44
  • 4 0.196 1.063 O.OlB 37 306 c 3 46 48 48 47
  • 4 0.196 1.063 O.OlB 37 306 c 4 42 42 44 42
  • 4 0.196 1.063 O.OlB 37 306 D 1 16 24 NOD ND t 4 0.19b .563 0.011 22 306 D 2 32 30 37 30 t 4 0.196 .563 0.011 22 306 D 3 42 4B 46 48
  • 4 0.196 .563 0.011 22 306 D 4 ND ND 31 34
  • 4 0.196 .563 0.011 22 307 A 1 72 73 72 i2
  • 4 0.5B8 .813 0.035 71 307 ft 2 72 72 75 72
  • 4 0.5B8 .813 0.035 71 ' 307 A 3 68 70 6B 6B
  • 4 0.588 .B13 0.035 71 307 A 4 76 76 75 76
  • 4 0.5B8 .B13 0.035 71 307 B 1 59 62 60 5B ' 4 0.588 .750 0.028 57 307 B 2 63 62 60 60
  • 4 0.58B .750 0.028 57 307 B 3 57 57 57 56
  • 4 0.588 .750 0.028 57 307 B 4 60 59 56 55
  • 4 0.588 .750 0.028 57 307 c 1 39 41 39 48
  • 4 0.588 .750 0.019 39 307 c 2 49 51 50 50
  • 4 0.588 .750 0.019 39 307 r 'T 43 41 44 43 t 4 0.588 .750 0.019 39 ... '*' 307 " 4 49 49 44 43
  • 4 0.588 .750 0.019 39 \, 307 D 1 30 32 30 44
  • 4 0.588 .813 0.015 31 307 D ,, 45 44 47 48
  • 4 0.588 .813 0.015 31 ' 307 D 3 41 38 39 39 4 0.588 .813 0.015 31 307 il 4 40 39 39 38
  • 4 0.588 .813 0.015 31 .\ 310 A 81 82 77 77
  • 8 0.196 .Bl3 0.039 BO 310 A 2 74 66 73 69
  • 8 0.196
  • B13 0.039 . 80 310 A 3 77 77 77 74
  • B 0.196 .813 0.039 80 Page 4 of 136 WASDATA.580
  • . ,.--* ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH 7.DEPTH , ' : : -----------------------------------------------------------------------------------------------

310 A 4 78 70 75 77

  • 8 0.196 .813 0.039 80 310 B 1 57 57 64 57 t 8 0.196 .750 0.029 59 310 B 2 55 55 55 55 t 8 0.196 .750 0.029 59 310 B 3 56 60 60 61 t B 0.196 .750 0.029 59 310 B 4 52 53 54 56 t 8 0.196 .750 0.029 59 310 c 1 48 48 50 51 i B 0.196 .750 0.019 39 310 c 2 46 49 42 45 t 8 0.196 .750 0.019 39 310 c 3 53 52 52 51 t B 0.196 .750 0.019 39 310 c 4 45 45 45 47 t 8 0.196 .750 0.019 39 310 D 1 48 53 56 ' 53 t 8 0.196 .688 0.010 20 310 D 2 ND ND NGD NGD
  • 8 0.196 .688 0.010 20 310 D 3 ND 67 57 63
  • 8 0.196 .688 0.010 20 310 D 4 44 37 42 44
  • B 0.196 .688 0.010 20 311 A 1 79 74 BO 73
  • B 0.588 .750 0.038 78 311 A " 69 70 67 66
  • B 0.588 .750 0.038 78 .I. 311 A 3 74 75 72 74
  • 8 0.588 .750 0.038 78 311 A 4 76 68 70 70 t 8 0.588 .750 0.038 78 311 B 1 63 60 58 63
  • 8 0.588 .750 0.030 61 311 B 2 55 54 56 55 l B 0.588 .750 0.030 61 311 B 3 60 60 58 58
  • 8 0.588 .750 0.030 61 311 B 4 55 57 57 57
  • B 0.588 .750 0.030 61 311 c 1 49 48 50 53
  • 8 0.588 .750 0.021 43 311 c 2 .45 42 48 42
  • B 0.568 .750 0.021 43 ** 311 c 3 47 46 48 49 t 8 0.588 .750 0.021 43 311 c 4 50 49 46 46
  • 8 0.588 .750 0.021 43 311 D 1 44 44* 42 43
  • 8 0.588 .813 0.016 33 311 D 2 39 40 39 40
  • 8 0.588 .813 0.016 33 311 D 3 44 44 45 44 t B 0.588 .813 0.016 33 311 D 4 41 41 39 40 t B 0.588 .813 0.016 33 314 A 1 73 64 66 74
  • 10 0.196 .688 0.038 77 314 A 2 62 64 53 60
  • 10 0.190 .688 0.038 7i 314 A 3 60 65 62 63
  • 10 0.196 .688 0.038 77 314 . A 4 73 71 71 72 t 10 0.196 .688 0.038 77 314 8 1 63 60 63 64
  • 10 0.196 .750 0.031 63 314 B 2 55 56 62 57
  • 10 0.196 .750 0.031 63 314 B 3 49 53 49 52
  • 10 0.196 .750 0.031 63 314 B 4 64 57 59 55 t 10 0.196 .750 0.031 63 314 c 1 46 47 47 47
  • 10 0.196 .813 0.020 41 314 c 2 43 49 51 53
  • 10 0.196 .813 0.020 41 314 c 3 40 46 40 50
  • 10 0.196 .813 0.020 41 314 c 4 NGD 37 44 44
  • 10 0.196 .813 0.020 41 314 D 1 35 33 38 47
  • 10 0.196 .813 0.012 20 314 D ., N9D ND ND 61
  • 10 0.196 .813 0.012 20 .I. 314 D 3 27 60 61 68
  • 10 0.196 .813 0.012 20 314 D 4 NQD N9D 26 39
  • 10 0.196 .B13 0.012 20 315 A 1 82 76 78 BO l 10 0.588 1.000 0.039 80 315 '* " 78 BO 67 81 l 10 0.588 1.000 0.039 BO H i. 315 A 3 70 69 72 71
  • 10 0.598 1.000 0.039 80 315 A 4 82 76 82 81 l 10 0.588 1.000 0.039 80 315 B 1 51 50 52 52
  • 10 0.5B8 .813 0.029 59
  • 315 B ., 51 53 49 52 t 10 0.588 .B13 0.029 59 i. 315 B 3 47 46 46 46
  • 10 0.588 .813 0.029 59 315 B. 4 53 50 54 56 i 10 0.588 .813 0.029 59 Page 5 of 136 .:.>.*** llASDATA.580 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH 4DEPTH : _ .. *:

315 L 1 42 41 40 40

  • 10 0.588 .875 0.020 41 315 c *2 36 35 35 41
  • 10 0.588 .875 0.020 41 c 3 46 43 43 46
  • 10 0.588 .875 0.020 41 315 c 4 49 45 46 43
  • 10 0.588 .875 0.020 41 315 D 1 39 30 29 37
  • 10 0.588 .688 0.016 33 315 D 2 35 31 43 43 i 10 0.588 .688 .0.016 33 315 D 3 52 36 40 41
  • 10 0.588 .688 0.016 33 315 D 4 44 40 43 41
  • 10 0.588 .688 0.016 33 317 A. 1 82 82 82 B2
  • 2 0.078 0.078 0.038 76 317 A 2 81 81 81 81
  • 2 0.078 0.078 0.038 76 317 A 3 82 82 82 82
  • 2 0.078 0.078 0.038 76 317 A 4 82 82 82 82
  • 2 0.078 0.07B 0.038 76 317 B 1 BO 82 B2 82
  • 4 0.078 0.078 0.040 BO 317 B 2 81 81 81 Bl
  • 4 0.078 0.078 0.040 80 317 B 3 B2 B2 82 82
  • 4 0.078 0.078 0.040 80 317 B 4 82 82 82 82
  • 4 0.078 0.078 0.040 BO 317 c 1 82 82 82 82
  • B 0.078 0.078 0.040 80 317 c 2 81 81 81 Bl l 8 0.078 0.078 0.040 80 317 c 3 82 82 82 82
  • B 0.078 0.07B 0.040 80 317 c 4 79 82 82 82
  • 8 0.078 0.078 0.040 BO :m D 1 73 73 74 74
  • 10 0,07B .0 *. 07B . 0.032 . 64 317 D 2 66 67 64 67
  • 10 0.07B 0.078 0.032 64 317 D 3 81 81 75 81
  • 10 0.078 0.07B 0.032 64 317 D 4 67 70 NGD ND
  • 10 0.078 0.078 0.032' 64 *:* 319 A 1 NGD NGD 19 ND
  • 4 0.190 0.190 0.012 25 . ' 1.\. 319 A 2 26 27 10 29
  • 4 0.190 0.190 0.012 25 319 A 3 ND ND ND ND
  • 4 0.190 0.190 0.012 25 319 A 4 ND 50 ND 76
  • 4 0.190 0.190 . 0.012 25 319 B 1 ND ND ND ND
  • 5 0.190 0.190 0.014 29 319 B 2 3 54 47 30
  • 5 0.190 0.190 0.014 29 319 B 3 ND ND ND ND
  • 5 0.190 0.190 0.014 29 319 B 4 ND ND ND ND
  • 5 0.190 0.190 0.014 29 319 c 1 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 c 'l 56 ND NGD NGD l 9 0.190 0.190 0.013 27 '" 319 c 3 ND ND ND ND l 9 0.190 0.190 0.013 27 319 c 4 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 D 1 ND ND ND ND
  • 11 0.190 0.190 0.012 25 319 D 2 49 NGO NGO 'NGO
  • 11 0.190 0.190 0.012 25 319 D 3 ND ND ND ND J 11 0.190 0.190 0.012 25 319 D 4 ND ND ND ND
  • 11 0.190 0.190 0.012 25 320 A 1 B2 B2 82 B2
  • 2 0.080 0.080 0.040 83 320 A 2 82 Bl 81 81
  • 2 0.080 0.080 0.040 83 320 A 3 B2 82 82 82
  • 2 0'.080 0.080 0.040 83 320 A 4 82 61 82 82 l 2 0.080 o*.000 0.040 83 320 B 1 79 82 81 80
  • 5 0.080 0.080 0.040 83 320 B 82 81 81 81
  • 5 0.080 0.080 0.040 83 .i. 320 B 3 80 78 78 80
  • 5 0.080 0.080 0.040 83 320 B 4 82 82 82 82
  • 5 O.OBO 0.080 0.040 B3 320 c 1 81 81 79 82
  • 8 0.080 0.080 0.038 79 320 c *.i. 70 81 81 81
  • 8 0.080 0.080 0.038 79 320 c 3 NGD 66 77 NGO
  • 8 0.080 0.080 0.038 79
  • 320 c 4 82 ND 82 81
  • 8 0.080 0.080 0.038 79 .. 320 D 1 59 64 67 63
  • 10 0.080 0.080 0.036 75 Page 6 of 136 *
  • WASDATA.580

' ,,. --. / .. ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH 7.DEPTH ----------------------------------------------------------------------------------------------- 320 D 2 43 48 47 47 t 10 0.080 0.080 0.03b 75 320 n* 3 30 19 <20 ND t 10 0.080 0.080 0.03b 75 320 D 4 82 b3 55 bO t 10 0.080 0.080 0.03b 75 3b9 A 1 ND ND ND ND ** 10 0.078 0.078 0.040 BO 3b9 A 2 ND ND 49 NGD t 10 0.078 0.078 0.040 BO 3b9 A 3 ND ND ND ND t 10 0.078 0.078 0.040 BO 3b9 A 4 ND ND ND ND t 10 0.078 0.078 0.040 80 3b9 B 1 ND ND ND ND t 10 0.109 0.109 0.030 bO 3b9 B 2 29 29 3 NGD t 10 0.109 0.109 0.030 60 3b9 B 3 ND ND ND ND t 10 0.109 0.109 0.030 bO 3b9 B 4 ND ND ND ND

  • 10 0.109 0.109 0.030 60 3b9 c 1 ND ND ND ND t 10 0.187 0.187 0.020 40 3b9 c 2 b5 12 NGD 68 l 10 0.187 0.187 0.020 40 3b9 c 3 ND ND ND ND t 10 0.187 0.187 0.020 40 3b9 c 4 ND ND ND ND t 10 0.187 0.187 0.020 40 369 D 1 ND ND ND ND l 10 0.187 0.187 0.015 30 369 D 2 59 NQD 61 NGD
  • 10 0.187 0.187 0.015 30 369 D 3 ND ND ND ND l 10 0.187 0.187 0.015 30 3b9 D 4 ND ND ND ND i 10 0.187 0.187 0.015 30 369 E 2 43 72 ND NGO l 10 0.000 0.000 0.000 0 369 E 3 ND ND ND ND l 10 0.000 0.000 0.000 0 369 E 4 ND ND ND ND t 10 0.000 0.000 0.000 0 370 A 1 ND ND ND ND t 15 0.078 0.078 0.040 80 370 A 2 ND NGD NGD NGO t 15 0.078 0.078 0.040 80
  • 370 A 3 ND ND ND ND
  • 15 0.078 0.078 0.040 80 . \' 370 A 4 NGD NGD ND ND t 15 0.078 0.078 0.040 BO 370 B 1 ND ND ND ND t 15 0.109 0.109 0.030 60 370 B 2 NGO NGO NGO NGO
  • 15 0.109 0.109 0.030 60 370 B 3 ND ND ND ND
  • 15 0.109 0.109 0.030 60 370 B 4 NGO NGD NGO ND l 15 0.109 0.109 0.030 60 370 c 1 ND ND ND ND t 15 0.187 0.187 0.020 40 370 c 2 NGD NGD NGD NGD
  • 15 0.187 0.187 0.020 40 370 c ,. ND ND ND ND g 15 0.187 0.187 0.020 40 ,. 370 c 4 NGD NGD ND ND t 15 0.187 0.187 0.020 40 370 D 1 ND ND ND ND t 15 0.187 0.187 0.015 30 370 D 2 NGD NGD NGO NGD
  • 15 0.187 0.187 0.015 30 370 D 3 ND ND ND ND t 15 0.187 0.187 0.015 30 370 D 4 NGO NGD -ND ND
  • 15 0.187 0.187 0.015 30 370 E 2 NGD NGD NGD NGO 15 0.000 0.000 0.000 0 370 E 3 ND ND ND HD
  • 15 0.000 o.ooo o.ooo 0 370 E 4 NGD NGD ND ND
  • 15 0.000 0.000 0.000 0 371 A 1 ND ND ND llD
  • 20 0.078 0.078 0.040 80 371 A 2 ND ND ND ND t 20 0.078 0.078 0.040 80 371 A "/ ND ND ND ND t 20 0.078 0.078 0.040 80 " 371 A 4 ND ND ND ND i 20 0.079 0.078 0.040 80 371 B 1 ND ND ND
  • 20 0.109 0.109 0.030 60 371 B " NGO NGD NGO
  • 20 0.109 0.109 0.030 60 i. 371 B 3 ND ND ND ND t 20 0.109 0.109 0.030 60 371 B 4 ND ND NQD ND t 20 0.109 0.109 0.030 60 371 \, 1 ND ND ND ND l 20 0.187 0.187 0.020 40
  • 371 c 2 NGD NGD NGD NGD
  • 20 0.187 0.187 0.020 40 371 c 3 ND ND ND ND
  • 20 0.187 0.187 0.020 40 371 c 4 ND ND NGO ND l 20 0.187 0.187 0.020 40 Page 7 of 136 ./. WASDATA.580 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

371 D 1 ND ND ND ND a 20 0.187 0.187 0.015 30 371 D ,, NGD NGD NGD NGD a 20 0.187 0.187 0.015 30 " 371 D 3 ND "ND ND ND t 20 0.187 0.187 0.015 30 . 371 D . 4 ND ND NOD ND a 20 0.187 0.187 0.015 30 371 E 2 NOD NOD NOD NOD a 20 0.000 0.000 o.ooo 0 3i1 E 3 ND ND ND ND t 20 0.000 o.ooo 0.000 0 371 E 4 ND ND NOD ND a 20 o.ooo 0.000 o.ooo 0 372 A 1 ND. ND ND ND

  • 25 0.078 0.078 0.040 BO 372 A 2 ND ND ND ND
  • 25 0.07B 0.07B 0.040 BO 372 A 3 ND ND ND ND a 25 0.078 0.078 0.040 BO 372 A 4 ND ND NOD NOD
  • 25 0.078 0.078 0.040 80 372 B 1 ND ND ND ND
  • 25 0.109. 0.109 0.030 60 372 B 2 NGO NOD NOD NOD
  • 25 0.109 0.109 0.030 60 372 B 3 ND ND ND ND
  • 25 0.109 0.109 0.030 60 372 B 4 ND ND NGD NOD t 25 0.109 '. 0.109 0.030 60 372 c 1 ND ND ND ND a 25 0.187 0.187 0.020 40 372 c 2 NOD NOD NGO NGD g 25 0.187 0.187 0.020 40 372 c 3 ND ND ND ND a 25 0.187 0.187 0.020 AO 372 c 4 ND ND NGO NOD t 25 0.187 0.1B7 0.020 40 372 D 1 ND ND ND ND a 25 0.187 0.187 0.015 30 372 D -2 NGD NOD NOD NOD a 25. 0.187 0.187 0.015 30 372 D 3 ND ND ND ND t 25 0.187 0.187 0.015 30 372 D . 4 ND ND NOD NOD a 25 0.187 0.187 0.015 30 .,, 372 E 2 NGO NOD NGO NGD a 25 o.ooo 0.000 0.000 0 372 E 3. ND ND ND ND a 25 0.000 0.000 o.ooo 0 372 E 4 ND ND NGO NGO a 25 0.000 o.ooo o.ooo 0
  • . ., *. : ' *. . ISADATA.580 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 382 D 382 D 382 D 382 D 382 E 382 E 382 E 382 E 383 D 383 D 383 D 383 D 383 E 383 E 383 E 383 E 384 D 384 D 384 D 384 D 384 E 384 E 3B4. E 3B4 E 385 D 385 D 3B5 D 385 D 385 E 385 E 385 E 385 E 386 D 386 D 386 D
  • 386 D 386 t. 386 E 386 E 386 E 3B7 D 387 D 387 D 387 D 387 t. 387 E 387 E 387 E 388 D 388 D 388 D 388 n 388 E 2 3 4 2 ., *-' 4 1 2 3 4 1 2 3 ' ._. 4 2 ' -* 4 2 3 4 1 2 3 4 2 4 1 2 ., .;, 4 2 3 4 'l 3 4 2 3 4 1 13 30 20 18 NGD 52 tmD 45 17 ND ND ND ND ND ND 46 44 45 41 37 57 35 42 41 40 44 41 43 52 37 43 40 32 40 35 42 59 34 42 49 44 49 46 57 61 47 79 79 79 75 87 14 20 B 8 43 53 29 48 12 ND ND ND ND ND ND ND 43 43 45 39 39 54 33 43 41 39 43 40 45 52 41 45 40 ,,, .,,,, 38 34 43 51 37 46 49 47 50 46 57 61 56 54 80 82 77 75 82 16 20 8 14 43 53 48 56 ND ND ND ND ND ND ND ND 43 48 46 39 41 53 53 48 42 41 44 42 45 51 42 49 38 32 39 39 41 49 34 49 49 46 50 46 58 59 55 51 76 ! 82 79 79 82 20 * .:i 18 12 35 51 45 54 ND ND NGD ND ND ND ND ND 44 42 49 39 39 52 46 49 41 39 4B 43 44 51 54 50 39 33 44 40 42 52 3B 47 51 46 54 49 49 59 59 60 BO BO 77 78 B2 ' t t t t t t
  • l
  • t t t l t t t t t t t
  • t t t
  • t t t t t t t t t AI 30.8 30.B 30.8 30.8 26.2 26.2 26.2 26.2 11. 5 11. 5 11. 11.5 11.8 11.8 11.8 11.B 51.B 51.8 51.£ 51.8 46.3 46.3 46.3 46.3 52.1 52.l 52.1 52.1 45.8 45.8 45.8 45.8 52.8 52.e 52.8 52.8 50.4 50.4 50.4 50.4 57.9 57.9 57.9 57.9 54.9 54.9 54.9 54.9 91.2 91.2 91.2 91.2 92.2 MAI 31.5 31.S 31.S 33.3 .,,, ., .;;..;,.;;

33.3 33.3 12.1 12.1 12.1 12.1 14.2 14.2 14.2 14.2 53.0 53.1) 53.0 $3.0 53.3 53.3 53.3 53.3 52.3 52.3. 52.3 52.3 50.4 S0.4 50.4 50.4 53.3 53.3 53.3 53.3 55.6 55.6 55.6 55.6 58.9 58.9 58.9 58.9 60.0 60.0 60.0 60.0 91.4 91.4 91.4 91.4 98.4 llP 77.6 77.6 77.6 77.6 58.6 58.6 58.6 58.6 26.1 26.1 26.l 26.1 24.2 24.2 24.2 24.2 78.2 78.2 78.2 78.2 71.5 71.5 71.5 71.5 73;7 73.7 73.7 73.7 60.5 60.5 60.5 60.5 75.4 75.4 75.4 75.4 67.6 67.6 67.6 67.6 90.6 90.6 90.6 90.6 78.2 7B.2 78.2 78.2 99.6 99.6 99.6 99.6 100.0 AS 45.3 45.3 45.3 45.3 50.2 50.2 50.2 50.2 Page 8 of 136 MAS DENT AXIAL 47.3 47.3 47.3 47.3 50.2 50.2 50.2 50.2 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 . 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 2 0.20 CIRC DEPTH 0.588 0.588 0.588 O.SBB 0.588 0.588 0.58B o.5BB 0.588 0.5B8 0.588 O.SBB 0.5B8 0.5B8 0.5B8 0.5B8 0.5B8 O.SBB 0.5B8 0.5B8 0.5B8 0.588 0.588 0.5BB 0.58B 0.58B 0.5B8 0.5BB 0.58B o.5B8 0.588 0.5BB 0.588 0.5BB 0.588 0.5B8 0.5B8 0.5BB 0.5B8 0.5BB 0.5BB 0.5B8 0.58B 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.5B8 0.588 0.588 30 30 30 30 30 30 30 30 20 20 20 20 20 20 20 20 40 40 40 40 40 40 40 40 50 50 50 50 50 50 50 50 60 60 60 60 60 60 60 60 BO BO BO 80 BO BO BO BO 100 100 100 100 100 Page 9 of 136 ISADATA.580

  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI MAI MP AS 11AS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

3BB E 2 BB 90 B2 82 l 92.2 98.4 100.0 2 0.20 0.588 100 388 E "! 91 91 91 91 l 92.2 98.4 100.C 2 0.20 0.588 100 .; 388 E 4 82 82 82 82 l 92.2 98.4 100.0 2 0.20 0.5B8 100 389 D 1 39 37 37 37

  • 43.3 43.9 79.2 59.0 59.2 4 0.20 0.5BB 30 3B9 D ., 31 31 31 35 s 43.3 43.9 79.2 59.0 59.2 4 0.20 0.5BB 30 L 389 D 2B 22 27 30 t 43.3 43.9 79.2 59.0 59.2 4 0.20 0.5BB 30 *J 3B9 D 4 2B 2B 30 30 t 43.3 43.9 79.2 59.0 59.2 4 0.20 0.5BB 30 3B9 E 1 97 97 97 100 t 32.4 41.2 62.6 4 0.20 0.5BB 30 3B9' E 2 INC INC INC me t 32.4 41.2 62.6 4 0.20 0.588 30 389 E 3 1156 r!SS 1'!56 1156 t 32.4 41.2 62.6 4 0.20 0.588 30 389 E 4 INC INC INC INC l 32.4 41.2 62.b 4 0.20 0.588 30 391) D 1 ND ND 15 ND t 21.5 22.3 63.0 39.4 40.9 4 0.20 0.5BB 20 390 D ND 10 3 3 t 21.5 22.3 63.0 39.4 40.9 4* 0.20 0.588 20 .:. 391) D "! . 3 ND ND NDD t 21.5 22.3 63.0 39.4 40.9 4 0.20 0.588 20 .J 390 D 4 8 ND ND NDD i 21.5 22.3 63.0 39.4 40.9 4 0.20 0.588 20 390 E 1 ND ND ND ND l 1B *. 1 22.1 51.3 36.9 37.7 4 0.20 0.588 20 390 E 2 ND ND ND ND l lB.1 22.1 51.3 36.9 37.7 4 0.20 0.5BB 20 390 E "! ND ND ND ND : lB.1 ?? ' 51.3 36.9 37.7 4 0.20 0.5B8 20 .:_. ...... .1. 390 E 4 *ND ND ND ND l 1B.1 22.1 51.3 36.9 37.7 4 0.20 0.588 20 391 D 1 34 37 36 40 s 43.9 44.9 85.4 60.5 61.9 4 0.20 0.5B8 40 L 391 D ') 42 40 40 42 s 43.9 44.9 B5.4 60.5 61.9 4 0.20 0.588 40 .:. 391 D .,. 39 36 38 43 l 43.9 44.9 B5.4 60.5 61.9 4 0.20 0.5B8 40 .J 391 D 4 33 34 34 34 ' 43.9 44.9 B5.4 60. 61.9 4 0.20 0.588 40 391 E 1 32 41 3B 42 s 41. 9 47.6 69.8 57.7 57.7 4 0.20 0.58B 40 391 E " 55 54 57 54 ' 41.9 47.6 69.B 57.7 57.7 4 0.20 0.58B 40 (l. i. 391 E 3 30 29 35 18 l 41.9 47.6 69.8 57.7 57.7 4 0.20 0.588 40 391 E 4 39 45 49 47 s 41.9 41.b 69.B 57.7 57.7 4 0.20 0.58B 40 392 D 1 32 31 32 32 t 45.6 45.8 77.6 4 0.20 0.588 50 392 D 2 . 39 38 38 37 l 45.6 45.B 77.6 4 0.20 0.5B8 so 392 D 3 35 33 29 33. g 45.6 45.8 77.6 4 0.20 0.588 50 392 D 4 30 30 34 30 l 45.6 45.8 77.6 4 0.20 0.588 50 392 E 1 25 . 35 34 32
  • 44.3 51.3 69.7 61.1 61.1 4 0.20 0.58& 50 392 E " 41 44 46 50 l 44.3 51.3 69.7 61.1 61.1 4 0.20 0.588 50 i. 392 E 3 24 23 34 22
  • 44.3 51.3 69.7 61.1 61.1 4 0.20 0.5BB 50 392 c:. 4 37 43 48 41
  • 44.3 51.3 69.7 61.1 61.1 4 0.20 0.5B8 50 393 0 1 49 49 50 50 l 53.9 56.0 81.5 64.7 64.7 4 0.20 0.588 60 393 D 46 46 49 48 l 53.9 56.0 81.5 64.7 64.7 4 0.20 0.5BB 60 L 393 D *7 ., 51 51 51 55 l 53.9 56.0 81.5 64.7 64.7 4 0.20 0.588 60 393 D 4 4B 51 52 50 l 53.9 56.0 81.5 64.7 4 0.20 0.5B8 60 393 E 1 51 52 51 59
  • 54.2 60.4 73.6 4 0.20 0.588 60 393 E ., 55 60 61 53 l 54.2 60.4 73.6 4 0.20 .0.588 60 i. 393 E ,. 47 47 49 58 l 54.2 60.4 73.6 4 0.20 0.5BB 60 ., 393 E
  • 52 53 53 57 . l 54.2 60.4 73.6 4 0.20 0.58B 60 'T 394 D 1 51 54 51 54
  • 58.2 59.8 91.3 4 0.20 0.58B BO 394 D 2 51 47 50 48 l 58.2 59.B 91.3 4 0.20 0.5B8 BO 394 D ,. 53 53 53 56 l 58.2 59.B 91.3 4 0.20 0.5BB BO *J 394 D 4 51 51 51 53 l 5B.2 59.8 91.3 4 0.20 0.588 BO 394 E 1 60 60 59 60 l 48.0 57.0 73.5 4 0.20 0.588 so 394 E 2 b4 59 59 56 l 48.0 57.0 73.5 4 0.20 0.588 80 394 E 58 58 58 59 l 48.0 57.0 73.5 4 0.20 0.5B8 BO .., 794 E 4 57 58 53 58 s 48.C 57.0 73.5 4 0.20 0.588 80
  • 395 D 1 76 75 76 75
  • B2.0 83.6 100.0 4 0.20 0.588 100 395 n 2 76 74 75 76 l 82.0 83.6 100.0 4 0.20 0.588 100 u Page 10 of 136 ISADATA.580
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECTS AI MAI MP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

395 D 3 75 75 74 75 s 82.0 83.6 100.0 4 0.20 0.588 . 100 395 D

  • 75 72 75 l 82.0 83.b 100.0 4 0.20 0.588 100 't 395 E 1 82 82 82 82 l 79.8 88.4 96.1 4 0.20 0.588 100 395 E 2 82 82 82 82
  • 79.8 88.4 96.1 4 0.20 0.588 100 395 E 3 81 81 81 82 l 79.8 88.4 96.1 4 0.20 0.588 100 395 E 4 82 82 82 82 s 79.8 88.4 96.1 4 0.20 0.588 100 396 D 1 37 38 37 37 l 42.3 44.5 80.5 58.2 58.2 6 0.20 0.588 30 396 D 2 48 38 42 42 l 42.3 44.5 80.5 58.2 58.2 6 0.20 0.588 30 396 D 3 43 42 42 48 s 42.3 44.5 80.5 58.2 58.2 6 0.20 0.588 30 396 D 4 43 39 41 47 s 42.3 44.5 80.5 58.2 58.2 6 0.20 0.588 30 396 E l 46 46 47 49 l 31.3 40.5 72.9 55.4 55.5 6 0.20 0.588 30 396 *E 2 61 56 59 56 l 31.3 40.5 72.9 55.4 55.5 6 0.20 0.588 30 396 E 3 38 51 41 51
  • 31.3 40.5 72.9 55.4 55.5 6 0.20 0.588 30 396 E 4 49 45 43 38 t 31.3 40.5 72.9 55.4 55.5 6 0.20 0.588 30 397 D 1 42 46 46 43 l 29.6 30.6 62.9 49.8 50.7 6 0.20 0.588 20 397 D ., 38 32 37 32
  • 29.6 30.6 62.9 49.B 50.7 6 0.20 0.588 20 '-397 D 3 41 40 42 47 l 29.6 30.6 62.9 49.8 50.7 6 0.20 0.588 20 J D 4 44 44 46 45 i 29.6 30.6 62.9 49.B 50.7 6 0.20 0.588 20 397 t' 1 49 NilD 50 49 t 24.9 29.B 61. 9 45.6 50.1 6 0.20 0.588 20 ... 397 E ., 73 68 68 69 l 24.9 29.B 61.9 45.6 50.l 6 0.20 0.588 20 '-397 E .. 70 47 55 63 l 24.9 29.8 61. 9 45.6 50.1 6 0.20 0.588 20 .) 397 E 4 66 66 60 46 l 24.9 29.8 61.9 45.6 50.1 6 0.20 0.588 20 398 D 1 17 20 19 23
  • 12.5 12.8 23.2 6 0.20 0.588 40 396 D 2 32 16 21 14 l 12.5 12.8 23.2 6 0.20 0.588 40 398 D .. 22 20 19 22 l 12.5 12.8 23.2 6 0.20 0.588 40 (. .) 398 D 4 40 24 24 23 l 12.5 12.8 23.2 6 0.20 0.588 40 398 E 1 NilD ND ND 40 l 13.4 14.6 36.2 26.0 26.0 6 0.20 0.588 40 398 E 2 82 77 82 82 l 13.4 14.6 36.2 26.0 26.0 6 0.20 0.588 40 398 .. E 3 81 NilD 81 NilD
  • 13.4 14.6 36.2 26.0 26.0 6 0.20 0.588 40 398 E 4 ND NilD ND 50
  • 13.4 14.6 36.2 26.0 26.0 6 0.20 0.588 40 399 D 1 48 48 47 49 l 54.2 54.8 84.4 6 0.20 0.588 50 399 D 2 49 46 48 46
  • 54.2 54.8 84.4 6 0.20 0.588 399 D 3 51 50 50 54 t 54.2 54.8 S4.4 6 0.20 0.588 50 399 D 4 . 48 51 53 53 i 54.2 54.8 84.4 6 0.20 0.588 50 399 E
  • 37 37 37 37 l . 49 .6 56.3 72.4 6 0.20 0.588 50
  • 399 E 2 49 48 54 54
  • 49.6 56.3 72.4 6 0.10 0.586 50 399 E 3 30 23 30 55 l 49.6 56.3 72.4 6 0.20 0.588 50 399 E 4 46 51 43 50
  • 49.6 56.3 72.4 6 0.20 0.588 50 400 D 1 45 46 47 49
  • 50.4 51.4 83.7 6 0.20 0.588 60 400 D 2 50 46 48 51
  • 50.4 51.4 83.7 6 0.20 0.588 60 400 D 'T 49 48 48 53
  • 50.4 51.4 83.7 6 0.20 0.588 60 " 400 D 4 51 51 51 51
  • 50.4 51.4 83.7 6 0.20 0.588 60 400 E 1 28 27 28 24
  • 39.8 47.0 71.8 54.9 54.9 6 0.20 0.588 bO 400 E 2 43 46 51 52
  • 39.8 47.0 71.8 54.9 54.9 6 0.20 0.588 60 400 E 3 25 33 19 . 47 ' 39.B 47.0 71.8 54.9 54.9 6 0.20 0.588 60 400 !: 4 45 48 45 46 : 39.8 47.0 71.8 54.9 54.9 6 0.20 0.588 60 ... 401 D 1 82 78 82 78 t BL 9 84.2 100.0 6 0.20 80 401 D 2 80 82 82 82 l 81.9 84.2 100.0 6 0.20 0.588 80 401 D 'T 82 81 81 ' 81 g 81. 9 84.2 100;0 6 0.20 0.588 BO " 401 D 4 75 76 81 81
  • 81.9 84.2 100.0 6 0:20 0.588 80 401 E 1 so 77 73 79 l 70.2 77.3 92.8 6 0.20 0.588 80 ;. 401 E 2 73 73 73 73 l 70.2 77.3 92.8 6 0.20 0.588 80 401 t' 'T 77 74 71 64 l 70.2 77.3 92.8 6 0.20 0.588 80 ,.

Page 11 of 136 IGADATA.580

  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI MA! !'IP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

401 E 4 73 72 73 65 t 70.2 77.3 92.8 6 0.20 0.588 80 402 D 1 72 69 70 70 i 73.0 74.0 99.6 6 0.20 0.588 100 402 D 2 70 69 68 69 i 73.0 74.0 99.6 6 0.20 0.588 100 402 D 3 72 70 . 70 68 i 73.0 74.0 99.6 6 0.20 0.588 100 402 D 4 68 68 69 66 ' 73.0 74.0 99.6 6 0.20 0.588 100 402 E 1 82 82 82 82 l 76.2 81.5 94.6 6 0.20 0.588 100 402 E 2 82 77 82 82 l 76.2 81.5 94.6 6 0.20 0.588 100 402 E .. 81 81 81 82

  • 76.2 81.5 94.6 6 0.20 0.588 100 .; 402 E 4 78 79 76 77 l 76.2 81.5 94.6 6 0.20 0.588 100 403 D 1 ND ND ND l 13.5 14.4 48.0 26.7 28.6 8 0.20 0.588 30 403 D 2 ND ND ND ND l 13.5 14.4 48.0 26.7 28.6 8 0.20 0.588 30 403 D 3 ND HD ND ND i 13.5 14.4 4B.O 26.7 2B.6 B 0.20 0.5BB 30 403 D 4 ND ND ND ND ' 13.5 14.4 4B.O 26.7 28.6 B 0.20 0.5B8 30 *403 E 1 37 40 41 41 i 11. 7 14.0 33.1 21. 7 24.3 8 0.20 0.58B 30 403 E 2 . 40 25 36 32 l 11. 7 14.0 33.1 21. 7 24.3 B 0.20 0.5BB 30 403 E 3 42 20 35 51 l 11. 7 14.0 33.1 21.7 24.3 8 0.20 0.5B8 30 .i03 E 4 41 44 42 45 l 11. i 14.0 33.1 21. 7 24.3 8 0.20 0.588 30 404 D 1 37 24 26 34 l 16.1 16.4 59.2 33.4 34.3 8 0.20 0.588 20 404 D 2 38 37 44 31 i 16.1 16.4 59.2 33.4 34.3 8 0.20 0.588 20 404 D 3 50 50 38 55 l 16.1 16.4 59.2 33.4 34.3 B 0.20 0.588 20 404 D 4 40 36 .36 38 ' 16.1 16.4 59.2 33.4 34.3 8 0.20 0.58B 20 404 E 1 ND ND ND ND
  • 15.9 19.7 52.3 37.2 37.3 B 0.20 0.5BB 20 404 E 2 NGD NGD NGO NGD ' 15.9 *19. 7 52.3 37.2 37.3 8 0.20 0.58B 20 404 E 3 ND ND ND ND
  • 15.9 19.7 52.3 37.2 37.3 B 0.20 0.5BB 20 (_. 404 E 4 ND ND ND ND ' 15.9 19.7 52.3 37.2 37.3 B 0.20 0".5BB 20 405 D 1 46 45 46 45 ' 49.5 50.B B4.1 8 0.20 0.5BB 40 405 D 2 47 43 47 49
  • 49.5 50.8 B4.1 8 0.20 0.5BB 40 405 D 3 51 51 49 4B l 49.5 50.8 B4.1 B 0.20 0.58B 40 405 D 4 46 43 51 53
  • 49.5 50.8 84.1 8 0.20 0.5BB 40 405 E 1 ND ND ND ND. l 36.6 46.8 65.3 8 0.20 0.5BB 40 405 E 2 35 47 43 l 36.6 46.8 65.3 8 0.20 0.588 40 405 E 3 <20 ND 21 NGD
  • 36.6 46.8 65.3 8 0.20 0.5BB 40 405 4 26 14 19 NGD l 36.6 46.8 65.3 8 0.20 0.5BB 40 406 D 1 55 50 51 55 l 59.8 61. 7 90.B 8 0.20 0.588 50 406 D 2 49 49 53 47 l 59.9 61.7 90.B B 0.20 0.588 50 406 D 3 55 56 53 53 l 59.B 61. 7 90.B 8 0.20 0.5BB 50 406 D 4 52 54 54 55 l 59.B 61. 7 90.8 B 0.20 O.SBB 50 406 E 1 26 27 40 35 l 49.0 57.3 74.B B 0.20 0.5BB 50 406 E 2 38 3B 40 4B l 49.0 57.3 74.B B 0.20 0.58B 50 406 E 3 34 17 27 41 l 49.0 57.3 74.B 8 0.20 0.5B8 50 406 E 4 36 33 41 35
  • 49.0 57.3 74.B 8 0.20 0.5BB 50 407 D 1 60 . 55 59 60 l 63.0 64.6 BB.B B 0.20 0.5BB 60 407 D ., 5B 57 62 5B l 63.0 64.6 8B.B B 0.20 0.5BB 60 J. 407 D 3 67 59 SB 60 l 63.0 64.6 BB.8 B 0.20 0.5BB 60 40i D 4 57 58 59 57 l 63.0 64.6 8B.B B 0.20 0.5BB 60 407 E 1 39 35 33 2B l 50.6 59.0 72.6 B 0.20 0.5B8 61) 407 E 2 43 40 53 51 l 50.6 59.0 72.6 8 0.20 0.588 60 407 E 't 6 19 29 37 l 50.6 59.0 . 72.6 B 0.20 0.5B8 60 " 407 E 4 45 46 43 41 l 50.6 59.0 72.6 8 . 0.20 0.58B 60 408 0 1 82 82 B2 82 l 91.6 92.2 100.0 B 0.20 0.588 80 408 D 2 82 82 82 82
  • 91.6 Q., ? 100.0 8 0.20 0.588 80 ....... ;__. 408 D 't 81 81 82 82 l 91.6 92.2 100.0 8 0.20 0.58B 80 " 408 D 4 82 82 B2 82 l 91.6 92.2 100.0 B 0.20 0.5BB BO Page 12 of l36 ISADATA. 580
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI MAI MP AS MAS DENT AXIAL CIRC DEPTH 408 ;. 82 82 82 80 l 76.1 83.9 92.6 8 0.20 0.588 BO 408 E ,., 73 72 77 B2 l 76.1 83.9 92.6 B 0.20 0.5BB 80 '" 408 E 3 79 71 Bl 66 l 76.1 83.9 92.6 B 0.20 0.588 BO 408 E 4 79 76 79 75 l 76.1 83.9 92.6 8 0.20 0.588 80 409 D 82 82 82 82
  • 92. 7 . 92.9 100.0 8 0.20 0.588 100 409 D 2 82 82 82 82 l 92.7 92.9 100.0 B 0.20 0.588 100 409 D 3 81 81 81 B2 ' 92.7 92.9 100.0 8 0.20 0.588 100 409 D
  • 82 82 82 82 l 92.7 92.9 100.0 8 0.20 0.588 100 'I 409 E 82 82 82 82 l 81.0 88.9 100.0 8 0.20 0.588 100 409 E 2 O'J 82 82 82
  • 81.0 88.9 100.0 8 0.20 0.588 100 UL 409 C' "l' 7'l 57 76 BO l 81.0 88.9 100.0 B 0.20 0.588 100 I-*J 'L . 409 E 4 82 82 82 82 l 81.0 88.9 100.0 8 0.20 0.588 100 410 D 50 47 31 47 l 30.2 31.3 69.7 51.0 51.B 10 0.20 0.5BB 30 410 D 2 54 41 48 42 l 30.2 31.3 69.7 51.0 51.8 10 0.20 0.588 30 410 D 3 45 41 40 43
  • 30.2 31.3 69.7 51.0 51.8 10 0.20 0.588 30 410 D 4 36 ,..,. *J.J 50 46
  • 30.2 31.3 69.7 51.0 51.B 10 0.20 0.588 30 410 E ND ND ND ND
  • 24.8 31.2 60.1 47.0 48.4 10 0.20 0.588 30 410 E 2 ND ND ND ND
  • 24.8 31.2 60.1 47.0 48.4 10 0.20 0.588 30 410 E 3 ND ND trn NGD ' 24.8 31.2 60.1 47.0 4B.4 10 0.20 0.588 30 410 E 4 ND ND ND ND
  • 24.8 31.2 60.1 47.0 48.4 10 0.20 0.588 30 411 D 68 66 63 63
  • 14.2 15.1 56.5 33.2 35.7 10 0.20 0.588 20 411 D 2 69 60 61 61
  • 14.2 15.1 56. 5 ,..,. ., v.JaL 35.7 10 0.20 0.588 20 411 D 3 NQD* tlGD NllD 64 l 14.2 15.1 56.5 33.2 35.7 10 0.20 0.588 20 411 D 4 55 63 76 71
  • 14.2 15.1 56.5 33.2 35.7 10 0.20 0.588 20 411 E ND ND ND ND s 12.2 15.6 34.9 25.9 25.9 10 0.20 0.588 20 ... ,, 411 E 2 ND HD ND ND
  • 12.2 15.6 34.9 25.9 25.9 10 0.20 o.5ee 20 \'. 0.588 411 E 3 ND ND ND NQD s 12.2 15.6 34.9 25.9 25.9 10 0.20 20 411 E 4 ND ND ND NllD
  • 12.2 15.6 34.9 25.9 25.9 10 0.20 0.588 20 412 D 47 42 42 47
  • 39.9 41.6 83.3. 57.3 58.7 10 0.20 0.588 40 412 D ., 56 53 53* 52 * . 39.9 41.6 83.3 57.3 58.7 10 0.20 0.588 40 L 412 !\ . 46 44 45 60 ' 39.9 41.6 83.3 57.3 58.7 10 0.20 0.588 40 /J **' 412 D . 37 40 49 50
  • 39.9 41.6 83.3 57.3 58.7 10 0.20 0.588 40 ' 4"' i.; E 30 30 27 24 ' 38.0 43.2 65.2 55.1 55.1 10 0.20 0.588 40 412 E ., 14 30 42 48 ' 38.0 43.2 65.2 55.1 55.1 10 0.20 0.588 40 '" 412 E 3 23 23 31. 36
  • 38.0 43.2 65.2 55.1 55.1 10 0.20 0.588 40 412 E 4 18 30 21 22 s 38.0 43.2 65.2 55.1 55.1 10 0.20 0.588 40 413 D 68 66 67 67 s 64.3 65.3 95.8 10 0.20 0.588 50 413 D ,, 59 65 66 67 l 64.3 65.3 95.B 10 0.20 0.588 50 L 413 D ,. 57 55 56 62 ' 64.3 65.3 95.B 10 0.20 0.588 50 -* 413 D 4 72 58 61 62 s 64.3 65.3 95.8 10 0.20 0.588 50 413 E 1 55 48 45 55 s 56.6 64.7. 74.8 10 0.20 0.588 50 413 E 2 41 49 57 58
  • 56.6 64.7 74.8 10 0.20 0.589 50 413 E .,. 39 40 42 56 i 56.6 64.7 74.B 10 0.20 0.588 50 .J 413 E 4 46 46 46 45
  • 56.6 64.7 74.8 10 0.20 0.588 50 414 D 46 46 48 53 ' 46.7 48.2 92.4 10 0.20 0.588 M 414 D l. 36 51 50
  • 46.7 48.2 92.4 10 0.20 0.588 60 414 D 3 e,7 47 43 49 ' 46.7 48.2 92.4 10 0.20 0.588 60 414 D 4 42 46 48 49
  • 46.7 48.2 92.4 10 0.20 0.588 60 414 E 1 10 22 22 21
  • 43.9 50.1 71.3 10 . 0.20 0.588 60 414 E 2 16 30 46 48
  • 43.9 50.1 71.3 10 0.20 0.588 60 414 E 3 ,,,, 15 21 43
  • 43.9 50.1 71.3 10 0.20 0.588 60 .... :. 414 E 4 22 34 34 31
  • 43.9 50.1 71.3 10 0.20 0.588 60 415 D 82 82 82 82 ' 82.7 83.9 100.0 10 0.20 0.588 BO Page 13 of 136 ISADA TA. 580 *** ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI HAI MP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

415 D ., 82 82 82 82

  • 82.7 83.9 100.0 10 0.20 0.588 BO 4 415 D 3 75 75 . 74 78
  • 82.7 83.9 100.0 10 0.20 l).58B BO 415 D I Bl 79 BO BO l 82.7 83.9 100.0 10 0.20 0.5BB BO 'I 415 E 1 B2 82 82 B2
  • 74.4 B2.5 91.1 10 0.20 0.58B 80 415 E ., 77 73 B2 82
  • 74.4 82.5 91.1 10 0.20 0.588 BO .. . 415 E 3 59 70 63 61
  • 74.4 82.5 91.1 10 0.20 0.588 BO 415 E 4 73 70 73 7B
  • 74.4 82.5 91.1 10 0.20 0.588 80 416 D 1 75 75 74 74
  • 65.2 67.3 100.0 10 0.20 0.5BB 100 416 D. ., 68 75 75 73
  • 65.2 67.3 100.0 10 0.20 0.588 100 I. 416 D 'r DO 62 60 64
  • 65.2 67.3 100.0 10 0.20 0.588 100 *J 416 D 4 65 65 68 67
  • 65.2 67.3 100.0 10 0.20 0.588 100 416 E 1 71 76 75 68
  • 65.6 73.4 90.2 10 0.20 0.588 100 416 E 2 58 63 74 77 l 65.6 73.4 90.2 10 0.20 0.588 100 416 E .. 51 48 52 44
  • 65.6 73.4 90.2 10 0.20 0.588 100 ,) 416 E 4 67 64 57 59
  • 65.6 73.4 90.2 10 0.20 0.588 100 417 0 1 43 42 41 3B l 34.9 36.0 70.3 56.9 57.9 12 0.20 0.5BB 30 417 D 2 32 46 50 54
  • 34.9 36.0 70.3 56.9 57.9 12 0.20 0.5BB 30 417 D .. 56 5B 54 56
  • 34.9 36.0 70.3 56.9 57.9 12 0.20 0.588 30 ,) 417 D 4 32 36 30 40 l 34.9 36.0 70.3 56.9 57.9 12 0.20 0.588 30 417 E 1 43 48 47 45 l 30.3 37.0 76.1 55.2 58.3 12 0.20 0.588 30 417 E ., 47 51 57 60
  • 30.3 37.0 76.1 55.2 58.3 12 0.20 0.588 30 I. 417 E 3 29 47 31 52
  • 30.3 37.0 76.1 55.2 58.3 12 0.20 0.588 30 417 E 4 45 44 45 44
  • 30.3 37.0 76.1 55.2 58.3 12 0.20 0.588 30 418 D 1 40 48 36 13 ** 17.5 18.1 61.5 39.6 42.8 12 0.20 0.588 20 i. .* 418 D 2 59 49 63 60 l 17.5 18.1 61.5 39.6 . 42.8 12 0.20 0.588 20 41B D 'r ND 50 48 52
  • 17.5 18.1 61.5 39.6 42.8 12 0.20 . 0.588 20 .,, 418 D 4 29 32 40 31 l 17.5 18.1 61.5. 39.6 42.8 12 0.20 0.588 20 418 E 1 . ND ND ND ND
  • 17.7 19.8 59.2 44.3 47.1 12 0.20 0.588 20 41B E 2 82 67 77 73
  • 17.7 19.8 59.2 44.3 47.1 12 0.20 0.588 20 418 E .. ND NGD HD HGD
  • 17.7 19.8 59.2 44.3 47.1 12 0.20 0.588 20 ,) 418 E 4 61 50 60 59 l 17.7 19.8 59.2 44.3 47.1 12 0.20 0.588 20 419 D
  • 40 40 40 39
  • 52.7 53.1 86.6 12 0.20 0.588 40 ! 419 !\ ., 29 61 56 SB
  • 52.7 53.1 86.6 12 0.20 0.588 40 II I. 419 D 3 49 51 52 52
  • 52.7 53.1 .86.6 12 0.20 0.588 40 419 n 4 31 30 36 37
  • 52.7 53.1 86.6 12 0.20 0.588 40 u 419 E 1 37 51 53 52
  • 46.3 50.7 74.9 12 0.20 0.588 40 419 E ., 44 62 59 57
  • 46.3 50.7 74.9 12 0.20 0.588 40 I. 419 E .. 27 33 35 27
  • 46.3 50.7 74.9 12 0.20 0.588 40 ,) 419 E 4 35 33 41 43
  • 46.3 50.7 74.9 12 0.20 0.588 40 420 D 1 56 55 54 56 f 63.3 67.7 88.2 12 0.20 0.588 50 420 D 2 57 47 61 60
  • 63.3 67.7 88.2 12 0.20 0.588 50 420 D .. 61 63 56 61
  • 63.3 67.7 88.2 12 0.20 0.5BB 50 420 D 4 35 41 44 44
  • 63.3 67.7 88.2 12 0.20 0.5BB 50 420 E 1 48 58 59 57
  • 58.4 64.8 80.7 12 0.20 0.5BB 50 420 E 2 50 50 61 63
  • 58.4 64.B 80.7 12 0.20 0.588 50 420 . T 51 43 50 44
  • 58.4 64.B 80.7 12 0.20 0.588 so .., 420 . 4 41 47 47 44 l 58.4 64.8 80.7 12 0.20 0.588 50 421 D 1 39 39 38 37
  • 34.7 36.9 77.4 55.5 55.9 12 0.20 0.588 60 421 D 2 14 52 54 54 l 34.7 36.9 77.4 55.5 55.9 12 . 0.20 0.588 60 4?1 D 3 33 36 40 29
  • 34.7 36.9 77.4 55.5 55.9 12 0.20 0.588 60 421 D 4 27 30 36 35
  • 34.7 36.9 77.4 55.5 55.9 12 0.20 0.588 60
  • 421 E 1 36 36 36 37
  • 41.9 47.5 79.0 61.5 61.5 12 0.20 0.588 bO 421 ., 32 44 58 61
  • 41.9 47.5 79.0 61.S 61. 5 12 0.20 0.588 60 i.

Page 14 of 136 IGADATA.580

      • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI KAI KP AS MS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

421 E -r 33 20 27 NGD l 41. 9 47.5 79.0 61.5 61.5 12 0.20 0.588 60 " 4"' l.J. E 4 39 39 40 40 l 41. 9 47.5 79.0 61.5 61.5 12 0.20 0.588 60 '"? ,..a::,. D 1 65 64 62 63 l 81.6 B4.9 96.2 12 0.20 0.588 80 422 D 2 70 50 82 82 l 81.6 84.9 96.2 12 0.20 0.58B BO 422 D 3 69 62 59 72 l 81.6 84.9 96.2 12 0.20 0.58B BO 4"" 1. .. D 4 51 44 55 62 l B1.6 B4.9 96.2 12 0.20 0.588 BO '"? E 1 B2 B2 '72 B2 l 78.9 83.7 96.1 12 0.20 O.SBB BO 422 E 2 66 82 82 66 i 78.9 83.7 96.1 12 0.20 0.588 80 422 E 3 57 59 69 82 l 78.9 83.7 96.1 12 0.20 0.588 BO 422 E 4 65 61 59 49 l 78.9 83.7 96.1 12 0.20 0.588 80 423 D 1 82 B2 82 82 i 86.4 90.2 100.0 12 0.20 0.588 100 423 D 2 82 82 82 B2

  • 86.4 90.2 100.0 12 0.20 0.588 100 423 D 3 Bl 81 81 i l 86.4 90.2 100.0 12 0.20 0.588 100 423 D . 4 71 78 82 B2
  • B6.4 90.2 100.0 12 0.20 0.58B 100 423 E 1 B2 B2 82 82 i 80.6 85.8 98.1 12 0.20 0.588 100 423 E 2 76 65 82 79
  • 80.6 85.8 98.1 12 0.20 0.588 100 423 E 3 77 78 81 71 ' 80.6 85.8 98.1 12 0.20 0.588 100 423 E 4 82 82 82 70 l 80.6 85.8 98.1 12 0.20 0.588 100 424 D 1 49 55 so 51
  • 24.9 25.7 66.0 45.2 46.4 15 0.20 0.588 30 + 424 D ., 92 82 68 64 l 24.9 25.7 66.0 45.2 46.4 15 0.20 0.588 30 I. 424 D 3 NGD 47 44 HD ' 24.9 25.7 66.0 45.2 46.4 15 0.20 0.588 30 424 D 4 32 22 41 39
  • 24.9 25.7 66.0 45.2 46.4 15 0.20 0.588 30 424 E 1 ND ND ND ND
  • 21. 8 23.4 38.3 15 0.20. 0.588 30 -424 E 2 29 59 61 NGD
  • 21.8 23.4 38.3 15 0.20 . 0.588 30 .. '. 424 E 3* ND ND ND NGD l 21.8 23.4 38.3 15 0.20 0.588 30 424 E 4 0 50 41 NQD l 21.8 23.4 38.3 15 0.20 0.588 30 425 D 1 47 43 46 46 l 26.2 28.1 66.6 50.9 52.4 15 0.20 0.58B 20 425 D 2 48 60 62 58
  • 26.2 28.1 66.6 50.9 52.4 15 0.20 0.588 20 425 D 3 53 47 43 67 s 26.2 28.1 66.6 50.9 52.4 15 0.20 0.588 20 425 D 4 33 33 41 41
  • 26.2 28.1 66.6 50.9 52.4 15 0.20 0.588 20 425 E 1 NGD HUD NGO
  • 17.6 23.6 55.9 40.0 46.6 15 0.20 0.588 20 425 . E 2 NGD NGD NGD NGD
  • 17.6 23.6 55.9 40.0 46.6 15 0.20 0.588 20 425 E .. NGD ND ND NGD * *17 .6 23.6 55.9 40.0 46.6 15 0.20 0.588 20 .j 425 E 4 HGD ND ND ND
  • 17.6 23.6 55.9 40.0 46.6 15 0.20 0.588 20 426 D
  • 45 49 47 50 i 55.3 58.1 79.5 15 0.20 0.588 40 J. 426 D 2 61 56 69 62
  • 55.3 58.1 79.5 15 0.20 0.588 40 426 D 3 56 70 60 70 ' 55.3 58.1 79.5 15 0.20 0.588 40 426 D 4 . 32 35 39 42
  • 55.3 58.1 79.5 15 0.20 0.588 40 426 E 1 13 9 36 37 ' 40.6 45.9 70.2 58.7 58.7 15 0.20 0.588 40 426 E 2 6 14 51 29
  • 40.6 45.9 70.2 58.7 58.7 15 0.20 0.588 40 426 E 3 7 11 25 NGO
  • 40.6 45.9 70.2 58.7 58.7 15 0.20 0.588 40 426 E 4 35 23 31 31 ' 40.6 45.9 70.2 58.7 58.7 15 0.20 0.588 40 427 D 1 47 45 46 45
  • 26.6 28.8 63.7 46.8 49.9 15 0.20 0.588 50 427 D 2 57 44 63 59
  • 26.6 28.8 63.7 46.8 49.9 15 0.20 0.588 50 427 D 3 57 65 67 68
  • 26.6 28.8 63.7 46.8 49.9 15 0.20 0.588 50 427 D 4 44 42 45 42
  • 26.6 28.8 63.7 46.8 49.9 15 0.20 0.588 50 427 E 1 38 30 29 33
  • 25.9 29.4 62.7 41.2 48.2 15 0.20 0.588 so 427 E 2 29 36 60 48
  • 25.9 29.4 62.7 41.2 48.2 15 0.20 0.588 50 427 E -r 15 23 25 NGD
  • 25.9 29.4 62.7 41.2 48.2 15 . 0.20 0.588 50 .., 427 E 4 40 39 43 42
  • 25.9 29.4 62.7 41.2 48.2 15 0.20 0.588 50 428 D 1 55 54 52 52
  • 58.5 60.1 78.6 15 0.20 0.588 60
  • 428 D 2 55 50 58 62
  • 58.5 60.1 78.6 15 0.20 0.588 60 428 D 3 55 67 59 61
  • SB. 5 60.1 78.6 15 0.20 0.588 60
, ! * **
  • Page 15 of 136 IBADATA. 580 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI "AI "p AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

428 D 4 46 32 47 49 s 58.5 60.1 78.6 15 0.20 0.58B 60 428 E f .. ,.., "'" 31 39 32

  • 52.7 58.2 00.0 . 15 0.20 0.5B8 60 428 E 2 26 32 34 20
  • 52.7 SB.2 BO.O 15 0.20 0.5BB 60 42B E 3 42 36 38 44
  • 52.7 5B.2 BO.O 15 0.20 0.5BB 60 428 E 4 43 41 44 40 i 52.i 5B.2 BO.O 15 0.20 0.5BB 60 4"Q .i.. D 1 82 82 82 82 s 90.3 91.5 100.0 15 0.20 0.588 BO 429 D 2 82 82 82 82
  • 90.3 91.5 100.0 15 0.20 0.588 BO 429 D 3 81 81 81 B2
  • 90.3 91.5 100.0 15 0.20 0.588 80 429 D 4 82 82 82 82
  • 90.3 91.5 100.0 15 0.20 0.588 80 429 E 1 82 INC 82 82
  • 82.2 88.6 96.9 15 0.20 0.588 80 429 E 2 81 77 B2 82
  • B2.2 88.6 96.9 15 0.20 0.588 BO 429 E 3 50 Bl 69 62
  • 82.2 88.6 96.9 15 0.20 0.588 BO 429 E 4 70 75 76 76 ' 82.2 8B.6 96.9 ' 15 0.20 0.588 BO 430 D 1 82 *82 82 82
  • 90.5 91.5 100.0 15 0.20 0.588 100 430 D 2 82 B2 82 82 l 90.5 91.5 100.0 15 0,20 0.5BB 100 430 D ,. Bl Bl Bl B2
  • 90.5 91.5 100.0 15 0.20 0.588 100 *J 430 D 4 B2 85 B2 82 t 90.5 91.5 100.0 15 0.20 0.588 100 430 E 1 82 81 82 82
  • 81.4 86.2 96.1 15 0.20 0.588 100 .;30 E 2 59 82 61 61 l 81.4 86.2 96.1 15 0.20 0.5B8 100 430 E ,. 61 61 61 62
  • 81.4 86.2 96.l 15 0.20 0.588 100 .,, 430 E 4 57 55 56 59
  • 81.4 86.2 96.1 15 0.20 0.588 100 431 D 1 82 77 73 62 l 44.6 46.0 69.7 20 0.20 0.5BB 30 431 D 2 82 66 74 B2
  • 44.6 46.0 69.7 20 0.20 -

30 431 D ,. BO 72 81 B2

  • 44.6 46.0 69.7 20 0.20 0.5BB 30 .,, 431 D 4 40 45 4B 47
  • 44.6 46.0 69.7 20 0.20 o.saa 30 431 E 1 INC INC INC INC
  • 37.1 41.0 66.S 20 0.20 0.588 30 431 E ., INC me ItlC INC i 37.1 41.0 . 66.B 20 0.20 0.588 30 ... 431 E .,. l'!SG "S6 1156 1!56
  • 37.1 41.0 66.8 20 0.20 0.588 30 ,) 431 E 4 INC INC INC INC
  • 37.1 41.0 66.8 20 0.20 0.588 30 F?

D* 1 ND ND HD ND

  • 17.2 19.9 59.3 41.0 45.9 20 0.20 0.588 20 432 D 2 ND ND ND ND
  • 17 .2 19.9 59.3 41.0 45.9 20 0.20 0.588 20 ,.,.., '!*Ji. D 3 ND ND NGD ND
  • 17.2 19.9 59.3 41.0 45.9 20 0.20 0.588 20 4"t'l .*.IL D 4 ND ND NGD NGD g 17.2 19.9 59.3 41.0 45.9 20 0.20 0.588 20 432 t. 1 t4D ND ND ND l 25.7 28.1 63.9 46.8 49.8 20 0.20 0.588 20 432 C' 2 ND ND ND ND ** 25.7 28.1 63.9 46.8 49.8 20 0.20 0.588 20 ... 432 E T NGD ND NGD ND
  • 28.1 63.9 46.8 49.B 20 0.20 0.588 20 ,) 4"? E 4 ND ND NGD NGD g 25.7 28.1 63.9 46.8 49.8 20 0.20 0.588 20 433 D 1 82 82 82 82
  • 36.6 39.4 73.0 53.8 55.0 20 0.20 o.588 40 433 D 2 82 82 82 73
  • 36.6 39.4 73.0 53.8 55.0 20 0.20 0.588 40 433 D 3 ND ND NGD ND l 36.6 39.4 73.0 53.8 55.0 20 0.20 0.588 40 433 D 4 37 33 67 73
  • 36.6 39.4 73.0 53.8 55.0 20 0.20 0.588 40 433 E 1 18 30 37 24 l 39.4 45.5 63.5 52.7 52.7 20 0.20 0.588 40 433 E 2 32 55 36 42
  • 39.4 45.5 63.5 52.7 52.7 20 0.20 0.588 40 4"f"l' "" E 3 27 15 33 NGD l 39.4 45.5 63.5 52.7 52.7 20 0.20 0.588 40 433 E 4 15 17 22 23 l 39.4 45.5 63.5 52.7 52.7 20 0.20. 0.588 40 434 D 1 76 81 69 77
  • 53.8 55.7 74.0 20 0.20 0.588 50 434 D 2 82 65 82 82 s 53.8 55.7 74.0 20 0.20 0.588 so 434 D 3 81 81 BO 82 l 53.8 55.7 74.0 20 0.20 o.588 50 434 D 4 54 47 65 60
  • 53.8 55.7 74.0 20 0.20 0.588 50 434 E 1 11 ND 1 20
  • 50.1 55.8 69.8 20 0.20 0.588 50 434 E 2 6 INC 6 20 l 50.1 55.8 69.8 20 0.20 0.588 50 434 E .,. 9 18 22 NGD
  • 50.1 55.B 69.8 20 0.20 0.588 50 *J 434 E 4 15 27 25 23
  • 50.1 55.B 69.8 20 0.20 0.588 50
  • .. ,. i,! ** !GADATA.580 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 435 D 435 D 435 D 435 D 435 E 435 E 435 E 435 E 436 D 436 D 2 "1 *.J 4 1 2 3 4 1 2 436 D 3 436 D 4 436 E 1 436 E . 2 436 E 436 E mo 437 D D 437 D 437 E 437 E 437 E 437 E 438 D 438 D 438 D 438 D 438 E 438 E 438 E 438 E D 439 D 439 D 439 D 439 E 439 E 439 E 439 E 440 D 440 D 440 D 440 D 440 E 440 E 440 E 440 E 441 D 441 D 441 D 441 D 441 E 3 4 2 .;; 4 1 2 3 4 1 2 3 4 1 " " 3 4 2 . .:,.. 4 2 .,. 4 2 .,. .J 4 1 2 "1 ,, 4 2 "1 " 4 1 82 73 Bl 53 15 23 26 22 82 82 81 61 38 20 46 25 82 82 81 76 39 50 39 25 ND ND tlD NGD tin ND ,, .. 7 ND ND ND ND 6 i ND ND ND ND NGO ND ND NGD llQD ND ND ND NGD ND 82 78 58 69 80 78 44 63 23 18 20 47 17 30 20 31 82 82 77 82 81 81 76 82 61 62 17 38 45 44 31 30 82 82 77 82 Bl 81
  • 78 61 63 . 50 . 50 50 50 s 38 ND ND ND NGD NGD ND ND ND ND ND ND HD NGD NGD 13 9 ND ND ND ND ND NGD NGD ND ND ND HD ND ND NllD NllD ND ND ND ND. ND ND NGO NOD NGD ND ND ND ND NllD NGD NGD NGD ND ND ND ND NGD NGD ND ND ND 78 63 82 59 23 23 42 27 82 82 79 81 64 40 35 30 82 82 82 76 61 60 55 36 ND tlGD ND ND ND ND NGD 7 ND ND ND ND ND ND ND ND ND ND ND NGD ND ND ND NGO tmD ND ND ND ND s
  • s l s
  • l
  • l l
  • s
  • s l l
  • l l l l l g s *
  • t l l i l * *
  • l l l s l *
  • l
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  • l
  • i t l AI 50.3 50.3 50.3 50.3 49.3 49.3 49.3 49.3 77.5 77.5 77.5 77.5 72.6 72.6 72.6 72.6 74.2 74.2 74.2 74.2 71.2 71.2 71.2 71.2 46.4 46.4 46.4 46.4 35.7 35.7 35.7 35.7 22.5 22.5 22.5 22.5 17.6 17.6 17.6 17.6 46.0 46.0 46.0 46.0 40.2 40.2 40.2 40.2 47.6 47.6 47.6 47.6 43.5 MAI 50.9 50.9 50.9 50.9 52.9 52.9 s2.9* 52.9 78.1 78.1 78.1 78.1 76.3 76.3 76.3 76.3 74 .. 5 i4.5 74.5 74.5 74.0 74.0 74.0 74.0 48.5 48.5 48.5 48.5 42.3 "' .. 't..::. I ... 42.3 ,,.,. 1 1..;; ... 23.1 23.1 23.1 21.0 21.0 21.0 21.0 46.6 46.6 46.6 46.6 51.B 51.8 51.8 51.8 50.0 50.0 50.0 50.0
  • 48.8 MP 75.0 75.0 75.0 75.0 68.5 68.5 68.5 68.5 93.2 93.2 93.2 93.2 94.9 94.9 94.9 94.9 92.1 92.1 92.1 92.1 89.9 89.9 89.9 89.9 73.1 73.1 73.1 73.1 84.4 84.4 84.4 84.4 61. 7 61. 7 61. 7 61. 7 51.5 51.5 51.5 51.5 72.8 72.8 72.8 72.8 86.1 86.1 86.1 86.1 70.0 70.0 70.0 70.0 80.4 AS 63.5 63.5 63.5 63.5 60.5 60.5 60.5 60.5 49.B 49.8 . 49.8 49.8 39.3 39.3 39.3 39.3 66.6 66.6 66.6 66.6 61.3 Page 16 of 136 MAS DENT AXIAL 63.5 63.5 63.5 63.5 73.1 73.1 73.1 73.1 53.5 53.5 53.5 53.5 39.6 39.6 39.6 39.6 72.9 72.9 72.9 72.9 68.6 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 25 25 25 25 25 25 25 25 25 "" 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 0.20 0.20 0.20 0.20. 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 . 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 . 0.20 0.20 0.20 0.20 0.20 CIRC DEPTH 0.588 60 0.588 60 0.588 60 0.588 60 0.588 60 0.588 60 0.588 60 0.588 60 0.588 80 0.588 80 0.588 80 0.588 BO 0.588 80 0.588 80 0.588 BO 0.588 BO 0.588 100 0.588 100 0.588 100 0.588 100 0.588 *100 0.588 100 0.588 100 0.588 100 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 20 o. 588 . 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588 40 0.588 40 0.588 40 0.588 40 0.588 40 0.588 40 0.588 40 0.588 40 0.588 50 0 .588 50 0.588 50 o. 588 50 0.588 50 Page 17 of 136 IGADATA. 580
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI l'IAI !'IP AS l'IAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

441 E 2 ND ND ND ND t 43.5 48.8 80.4 61.3 68.6 25 0.20 0.588 . 50 441 E .,. NQD NQD ND ND l 43.5 48.B 80.4 61.3 68.6 25 0.20 0.588 50 . .) 441 E 4 ND tlllD 9 trn s 43.5 48.B 80.4 61.3 68.6 25 0.20 0.588 so 442 D 1 ND ND ND ND J 63.7 65.2 91.1 25 0.20 0.588 60 442 D " ND ND ND ND t 63.7 65.2 91.1 25 0.20 0.588 60 t. 442 D .,. ND NQD ND ND

  • 63.7 65.2 91.1 25 0.20 0.588 60 ** 442 D '4 NQD NGD NGD NGD s 63.7 65.2 91.1 25 0.20 0.588 60 442 E 1 NQD 11 NQD NQD l 61.9 67.6 87.8 25 0.20 0.588 60 442 E 2 6 56 NGD NQD l 61. 9 67.6 87.8 25 0.20 0.588 60 442 E 3 15 NQD NQD NQD l 61.9 67.6 87.8 25 0.20 0.588 60 442 E 4 ND NGD 11 13
  • 61.9 67.6 87.B 25 0.20 0.588 60 443 D 1 ND ND ND NQD
  • 80.1 82.9 100.0 25 0.20 0.588 BO 443 D " ND ND ND ND t 80.1 82.9 100.0 25 0.20 0.588 BO L 443 D 3 ND NQD ND ND
  • 80.1 82.9 100.0 25 0.20 0.588 BO 443 D 4 NGD NQD NGD tmD l 80.1 82.9 100.0 25 0.20 0.588 BO 443 E 1 NGD ND NQD NQD
  • 78.6 85.2 100.0 25 0.20 0.588 80 443 E 2 63 82 64 62 l 78.6 85.2 100.0 25 0.20 0.588 BO 443 E .,. 52 NGD 75 70 l 78.6 85.2 100.0 25 1).20 0.5B8 BO *.l 443 E 4 ND NGD 61 NGD
  • 78.6 B5.2 100.0 25 0.20 0.5B8 BO 444 D 1 ND ND ND NQD t 78.3 Bl.2 100.0 25 0.20 0.588 100 444 D 2 ND ND ND ND
  • 7B.3 81.2 100.0 25 0.20 0.5BB 100 444 D 3 ND NGD ND ND
  • 7B.3 Bl.2 100.0 25 0.20 0.588 100 444 D 4 NGD NGD ND NGD l 7B.3 81.2 100.0 25 0.20 0.588 100 444 E 1 ND ND NGD NGD
  • 83.3 B7.7 97.3 25 0.20 0.5B8 100
  • 444 E 2 82 82 82 82
  • 83.3 B7.7 97.3 25 0.20 0.5BB 100 . . 444 E ,. NGD NQD NGD NGD
  • 83.3 87.7 97.3 25 0.20 0.5B8 100 ,. .,, 444 E 4 ND NGD NGD NGD
  • 83.3 87.7 97.3 25 0.20 0.588 100 464 D 1 ND ND ND ND
  • 12.4 13.4 19.9 ---0.20 0.588 30 464 D 2 18 ND ND 18
  • 12.4 13.4 19.9 ---0.20 0.5BB 30 . 464 D 3 3 16 16 NGD t 12.4 13.4 19.9 ---0.20 0.58B 30 464 D 4 12 9 12 3
  • 12.4 13.4 19.9 ---0.20 0;588 30 464 E 1 ND ND ND ND t 15.6 15.8 23.2 ---0.20 0.5B8 30 464 E 2 20 14 27 38
  • 15.6 15.B 23.2 ---0.20 0.588 30 464 E 3 21 11 11 21
  • 15.6 15.B 23.2 ---0.20 0.588 30 464 E 4 14 15 14 32 t 15.6 15.B 23.2 ---0.20 ' 0.588 30 465 A 1 ND ND ND ND
  • 12.6 13.2 18.5 6 0.20 0.5BB 40 465 A 2 ND ND ND ND l 12.6 13.2 18.5 6 0.20 \ 0.5B8 40 465 A . ,. ND ND ND ND t 12.6 13.2 18.5 6 0.20 0.508 40 .,, 465 A 4 ND ND ND ND
  • 12.6 13.2 18.5 6 0.20 0.508 40 465 B 1 54 61 49 56 t 10.3 11.0 18,8 10 0.20 0.508 40 465 B 2 47 SB 38 43 l 10.3 11.0 10.8 10 0.20 0.588 40 465 B 3 43 38 29 43 t 10.3 11.0 18.8 10 0.20 0.5B8 40 465 B 4 tlGD NGD NGD NGD t 10.3 11.0 18.8 10 0.20 0.588 40 465 c 1 ND 8 6 9
  • 11.5 13.0 19.5 16 0.20 0.5B8 40 465 c 2 ND ND ND ND l 11.5 13.0 19.5 16 0.20 0.588 40 465 c ,. ND ND ND ND
  • 11.5 13.0 19.5 16 0.20 0.588 40 ,: . .,, 465 c 4 ND ND HD ND l 11. 5 13.0 19.5 16 0.20 0.58B 40 465 D 1 5 6 3 6
  • 11. 7 12.5 19.0 21 0.20 0.588 40 465 D 2 17 31 24 24 t 11. 7 12.5 19.0 21 0.20 0.588 40 465 D 3 5 9 NGD 7 t 11.7 12.5 19.0 21 0.20 0.588 40 465 D 4 B 11 5 3 t 11. 7 12.5 19.0 21 0.20 0.588 40 :. 465 E 1 22 21 18 22
  • 12.5 13.5 23.3 4 0.20 0.588 40 465 E 2 65 39 50 36 t 12.5 13.5 23.3 4 0.20 0.580 40 Page 18 of 136 ISADATA.580
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI 11AI 11P AS 11AS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

465 E 3 3 14 9 11 t 12.5 13.5 23.3 4 0.20 0.588 40 465 E 4 38 39 38 24

  • 12.5 13.5 23.3 4 0.20 0.588 40 466 D 1 29 15 14 25 t 16.7 16.9 20.1 ---0.20 0.588 20 466 D 2 22 25 34 55 ** 16.7 16.9 20.1 ---0.20 0.588 20 466 D 3 3 18 NOD 21 t 16.7 16.9 20.1 ---0.20 0.588 20 466 D 4 55 71 14 70
  • 16.7 16.9 20.1 ---0.20 0.588 20 466 E 1 ND ND ND ND t 17.3 17.6 21.0 ---0.20 0.588 20 466 E 2 ND ND ND ND l 17.3 17.6 21.0 ---0.20 0.588 20 466 E 3 ND ND NOD NOD t 17.3 17.6 21.0 ---0.20 0.588 20 466 E 4 ND ND ND ND l 17 .3 17.6 21.0 ---0.20 0.588 20 467 A 1 27 30 26 27 t 36.2 36.6 46.2 6 0.20 0.588 50 467 A 2 20 30 30 31 l 36.2 36.6 46.2 6 0.20 0.588 50 467 A 3 26 25 26 27
  • 36.2 36.6 46.2 6 0.20 0.588 50 467 A 4 25 24 27 27 l 36.2 36.6 46.2 6 0.20 0.588 50 467 B 1 37 37 37 37
  • 38.6 39.7 60.4 10 0.20 0.588 50 467 B 2 30 33 30 34 l 38.6 39.7 60.4 10 0.20 0.588 50 467 B 3 32 27 27 32
  • 38.6 39.7 60.4 10 0.20 0.588 50 467 B 4 34 35 38 39
  • 38.6 39.7 60.4 10 0.20 0.588 50 467 c 1 27 29 29 29 t 38.1 . 38.6 57.8 4 0.20 0.588 50 467 " 2 30 30 30 30
  • 38.l 38.6 57.8 4 0.20 0.588 50 \, 467 c 3 36 36 35 30 t 38.1 38.6 57.8 4 0.20 0.588 50 467 c 4 29 29 27 29 * . 38.1 38.6 57.8 4 0.20 0.588 50 467 D 1 22 22 22 23
  • 40.6 41.1 54.9 21 0.20 0.588 50 467 D 2 30 30 30 30 l 40.6 41.1 54.9 21 0.20 . 0.588 50 467 D 3 28 35 28 33 l 40.6 41.1 54.9 21 0.20 0.588 50 .:. 467 D 4 29 31 22 27 l 40.6 41.1 54.9 21 0.20 0.588 50 '..\. 467 E 1 32 34 28 29 l 43.0 43.4 58.4 15 0.20 0.588 50 467 E 2 36 36 35 36 l 43.0 43.4 58.4 15 0.20 0.588 50 467 E 3 30 30 32 27
  • 43.0 43.4 58.4 15 0.20 0.588 50 467 E 4 . 35 31 34 35
  • 43.0 43.4 58.4 15 0.20 0.588 50 468 D 1 33 33 32 32 t 43.6 43.B 50.6 ---0.20 0.588 60 468 D 2 40 42 42 40 l 43.6 .43.8 50.6 ---0.20 0.588 60 468 D 3 48 47 45 48 t 43.6 43.B 50.6 ---0.20 0.588 60 468 D 4 41 42 43 42
  • 43.6 43.8 50.6 ---0.20 0.588 60 468 E 1 32 33 34 33 l 45.2 45.3 50.4 ---0.20 0.588 60 468 E 2 36 36 35 37
  • 45.2 45.3 50.4 ---0.20 0.588 60 468 E 3 42 42 43 42
  • 45.2 45.3 50.4 ---0.20 0.5BB 60 468 E 4 37 32 36 37
  • 45.2 45.3 50.4 ---0.20 0.588 60 469 D 1 5 20 6 17 * . 17.2 lB.1 24.2 ---0.20 0.588 BO 469 D 2 17 18 22 20
  • 17.2 18.1 24.2 ---0.20 0.5BB BO 469 D 3 ND 11 5 3
  • 17.2 18.1 24.2 ---0.20 0.5BB BO . 469 D 4 12 11 9 9
  • 17.2 18.1 24.2 ---0.20 0.588 BO 469 E 1 ND ND ND ND
  • 19.3 19.9 27.2 ---0.20 0.588 80 469 E 2 ND ND ND ND
  • 19.3 19.9 27.2 ---0.20 0.588 80 469 E 3 ND ND ND ND
  • 19.3 19.9 27.2 ---0.20 0.588 BO 469 I'" 4 ND ND ND ND l 19.3 19.9 27.2 ---0.20 0.588 80 470 D 1 32 31 32 30 l 43.4 44.0 57 .o ---0.20 0.588 100 470 D 2 37 37 37 38
  • 43.4 44.0 57.0 ---0.20 0.588 100 470 D 3 41 41 41 43
  • 43.4 44.0 57.0 ---. 0.20 0.588 100 470 0 4 36 41 38 38
  • 43.4 44.0 57.0 ---0.20 0.588 100 470 E 1 43 43 45 44
  • 54.9 55.8 66.3 ---0.20 *o.588 100 ** 470 E 2 51 49 51 49
  • 54.9 55.8 66.3 ---0.20 0.588 100 470 E 3 55 55. 53 55
  • 54.9 55.8 66.3 ---0.20 0.588 100 Page 19 o.f 136 ISADATA.580
    • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI llAI l'IP AS l'IAS DENT AXIAL CIRC DEPTH 470 E *4 49 50 48 45 ' 54.9 55.B 66.3 0.20 0.588 100 471 D 1 12 15 18 18 ' 11.5 11.9 18.8 0.20 0.588 30 471 D " 15 .15 15 11 ' 11. 5 11.9 18.8 0.20 0.588 30 l. 471 D 3 16 ND 14 18 l 11.5 11.9 18.8 0.20 0.588 30 471 D 4 9 9 11 12 ' 11.5 11.9 18.8 0.20 0.588 30 471 E 1 24 NOD ND 29 ' 12.7 14.4 20.1 0.20 0.588 30 471 E ., 29 26 24 42 ' 12.7 14.4 20.1 0.20 0.588 30 l. 471 E 3 28 42 32 46
  • 12.7 14.4 20.1 0.20 0.588 30 471 E 4 45 25 30 30 ' 12.7 14.4 20.1 0.20 0.588 30 472 D 1 ND ND ND ND l 1.1 2.2 7.6 0.20 0.588 20 472 D ., ND ND ND ND ' 1.1 2.2 7.6 0.20 0.588 20 l. 472 D 3 ND ND ND ND l 1.1 2.2 7.6 0.20 0.588 20 472 D 4 ND NOD NOD NGD ' 1.1 2.2 7.6 0.20 0.588 20 472 E 1 ND ND ND ND ' 0.9 1.6 7.6 0.20 0.588 20 472 E 2 NOD NOD NOD tmD ' 0.9
  • 1.6 7.6 0.20 0.588 20 472 E 3 ND ND ND NOD
  • 0.9 1.6 7.6 0.20 0.588 20 472 E 4 ND NOD NOD NOD l 0.9 1.6 7.6 0.20 0.598 20 473 D 20 15 18 17 ' 34.0 36.7 41.8 0.20 0.588 40 473 D 2 25 25 26 25 ' 34.0 36.7 41.8 0.20 0.588 40 473 D 3 28 28 28 30 l 34.0 36.7 41.8 0.20 0.588 40 473 D 4 26 25 26 27 ' 34.0 36.7 41.8 0.20 0.588 40 473 E 1 39 42 42 40 l 30.7 33.4 38.5 0.20 0.588 40 473 E 2 42 44 42 43 ' 30.7 33.4 38.5 0.20 0.588 40 473 E 3 45 45 46 43
  • 30.7 33.4 38.5 0.20-0.588 40 ,.. 473 E 4 44 43 44 45 l 30.7 33.4 38.5 0.20 0,588 40 ' 474 D 1 ND ND ND ND
  • 17.8 18.6 26.9 0.20 0.588 50 474 D 2 11 5 6 ND l 17.B 18.6 26.9 0.20 0.588 50 474 D 3 ND ND NOD NOD ' 17.8 18.6 26.9 0.20 0.588 50 474 D 4 ND ND ND ND
  • 17.8 18.6 26.9 0.20 0.588 50 474 E r 30 25 27 29
  • 23.2 24.0 39.9 . 0.20 0.588 50 474 E 2 34 31. 34 24 ' 23.2 24.0 39.9 0.20 0.588 50 474 E . .. 20 11 18 23 l 23.2 24.0 39.9 0.20 0.588 50 ., 474 E 4 31 22 29 32 l 23.2 24.0 39.9 0.20 0.588 50 475 D 1 NGD 31 25 34 ' 11.5 11. 7 17.5 0.20 O.SBB 60 475 D 2 58 45 48 36 ' 11.5 il. 7 17.5 0.20 0.588 60 475 D .. 16 36 ND NOD
  • 11.5 11.7 17.5 0.20 0,588 60 ., 475 D 4 NOD 59 76 61
  • 11.5 11.7 17.5 0.20 0.588 60 . 475 E 1 ND ND ND ND
  • 13.7 13.B 18.7 0.20 0.588 60 475 E 2 NOD NGD NOD NOD ' 13.7 13.8 18.7 0.20 0.588 60 475 E 3 ND ND ND NGO ' 13.7 13.8 18.7 0.20 0.588 60 475 E 4 NOD NGD 96 96 i 13.7 13.8 18.7 0.20 0.588 60 476 D ' 20 18 18 15
  • 18.6 19.1 25.5 0.20 0.588 BO J. 476 D 2 15 15 17 14 l 18.6 19.1 25.5 0.20 0.588 BO 476 D ,. 7 9 9 16 l 18.6 19.1 25.5 0.20 0.588 BO ... 476 D 4 19 17 19 22 ' 18.6 19.1 25.5 0.20 0.5B8 BO 476 E 1 21 18 18 18 l 24.6 . 26.2 38.6 0.20 0.588 BO 476 E 2 22 24 24 24 l 24.6 26.2 38.6 0.20 0.5BB BO 476 E 3 27 25 20 20 l 24.6 26.2 38.6 0.20 0.5B8 80 476 E 4 21 19 21 21 l 24.6 26.2 38.6 . 0.20 0.5BB BO 477 D 1 65 66 66 65 l 77.8 78.1 84.1 0.20 0.5BB 100 477 D ., 68 70 69 68 i 77.8 78.1 84.1 0.20 0.588 100 l.
  • 477 D .. 74 74 72 75 l 77.B 78.1 84.1 0.20 0.5BB 100 *.* ., 477 D 4 68 67 66 68 l 77 .8 78.1 84.1 0.20 0.588 100
  • * /1 ; ' ;. Page 20 of 136 !6ADAiA.5BO ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 Al MAI MP AS MAS CENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

477 E 477 E 477 E 477 E 480 D 480 D 480 D 480 D 480 E 480 E 480 E 480 E 481 D 481 D 481 D 481 D 481 E 481 E 481 E 481 E 482 D 482 D 482 *o 482 D 482 E 482 E 482 E 482 E 483 D 483 D 483 483 483 483 E 483 E 483 E 382 D 382 D 382 D 382 D 382 E 382 ;;. 382 E 382 E 383 D 383 D 383 D 383 D 383 E 383 E 383 E 383 E 384 D 'l 3 4 1 ,, 3 4 2 1' *.J , 't 1 2 3 4 2 3 4 1 ,, i. 3 4 1 2 3 4 1 2 1' .., ' 't 2 "1' *.J 4 ., L 3 4 1 2 3 4 2 1' *' 4 2 3 4 67 70 76 69 26 36 41 ')C Lu 37 40 47 36 33 40 45 34 47 50 54 48 tiD ND ND NGO ND 89 ND NGD 20 15 20 17 ND . J.i 16 NGD 15 18 24 29 21 31 27 21 ND ND NJD ND MD 64 ND NGD 38 68 70 76 70 25 36 42 25 34 39 47 37 33 39 46 ""1' *)v 45 49 54 47 ND ND tlD ND ND 87 ND ND 15 15 18 19 17 18 11 NGD 15 16 22 22 34 27 31 9 ND ND HD ND ND *ND ND ND 3b 67 70 74 68 26 36 29 26 35 38 46 36 33 39 45 *34 46 48 54 47 ND ND ND NGD ND 89

  • ND 97 20 18 18 19 18 6 9 NGD 19 17 24 17 25 28 24 NGD NGD ND NGD ND . NGD ND HD HGD 38
  • 70 74 68 25 37 42 35 36 39 4b 37 32 39 45 37 46 48 54 49 ND ND ND NGD ND NGD ND 92 20 17 20 19 15 8 11 NGD 7 10* 21 27 29 29 29 10 ND ND NGD ND ND ND ND ND 40 68 * *
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  • l * ' l ' l * * ' 79.2 79.2 79.2 79.2 30.8 30.8 30.B 30.8 26.2 26.2 26.2 26.2 11. 5 11.5 11. 5 11.5 11.3 11.8 11.8 11.8 51.8 80.6 80.6 80.6 80.6 31.5 31.5 31.5 31.5 33.3 33.3 33.3 33.3 12.1 12.1 12.1 12.1 14.2 14.2 14.2 14.2 53.0 87.5 87.5 87.5 87.5 77.6 77.6 77.6 77.6 58.6 58.6 58.6 58.6 26:1 26.1 26.1 26.1 24.2 24.2 24.2 24.2 78.2 45.3 45.3 45.3 45.3 50.2 50.2 50.2 50.2 47.3 47.3 47.3 47.3 50.2 50.2 50.2 50.2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.30 0.30 0.30 0.30 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 . 0.20 0.20 0.20 0.20 0.20 0.588 100 0.588 . 100 0.588 100 0.588 100 1. 763 40 1.763 40 1.763 40 1. 763 40 2.355 40 2.355 40 2.355 40 2.355 40 . 0.460 40 0.460 40 0.460 40 0.460 40 0.588 40 0.588 40 0.588 40 0.588 40 0.070 40 0.070 40 0.070 40 0.070 40 0.130 40 0.130 40 0.130 40 0.130 40 0.588 40 o. 588 40 0.588 40 0.588 40 0.588 40 0.588 40 o. 588 40 0.588 40 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588 40 Page 21 of 136 * :IRDATA. 580 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC
  • AXIAL DEPTH

205 A 1 ND ND ND ND t --0.375 .008 0.049 100 205 A 2 ND.* ND ND t --0.375 .008 0.049 100 205 A 3 ND ND ND ND t --0.375 .008 0.049 100 205 A 4 ND ND ND ND t --0.375 .008 0.049 100 205 B 1 61 58 59 60 t --0.375 .007 0.028 60 205 B ., 89 . 89 87 82 t --0.375 .007 0.028 60 i. 205 B 3 91 90 90 90 l --0.375 .007 0.028 60 205 B 4 89 89 90 89 l --0.375 .007 0.028 60 205 c 1 62 62 62 60 l --0.375 .007 0.038 80 205 c 2 71 63 63 65 * --0.375 .007 0.038 80 205 c 3 68 68 72 72 * --0.375 .007 0.038 80 205 c 4 61 59 62 59 l --0.375 .007 0.038 80 205 D 1 89 89 87 89 t --0.375 .006 0.019 40 205 D 2 65 62 62 65 i --0.375 .006 0.019 40 205 D 3 66 64 65 63 * --0.375 .006 0.019 40 205 D 4 62 62 62 64 l --0.375 .006 0.019 40 205 E 1 ND ND ND ND * --0.375 .006 0.022 45 205 E 2 113 ND ND 51 t --0.375 .006 0.022 45 205 E 3 54 113 58 54 t --0.375 .006 0.022 45 205 E 4 68 52 62 51 * --0.375 .006 0.022 45 205 F 1 ND ND ND . ND * --0.375 .006 0.010 20 205 F 2 ND ND ND ND * --0.375 .0011 0.010 20 205 F 3 ND ND ND ND * --0.375 .006 0.010 20 205 F 4 ND ND ND ND t --0.375 .006 0.010 20

  • 209 A 1 39 43 42 35 * --0.375 .006 0.018 38 *!, 209 A 2 39 23 33 31 l 0.375 .006 0.018 38 --209 A 3 35 32 25 31 t --0.375 .006 0.018 38 209 A 4 22 24 28 28 t --0.375 .006 0.018 38 209 B 1 ND ND 21 38
  • 10 0.375 .006 0.020 42 209 B 2 ND ND ND ND
  • 10 0.375 .006 0.020 42 209 B 3 NGD NGO NGO 81 s 10 0.375 .006 0.020 42 209 B 4 NGO 81 77 77
  • 10 0.375 .006 0.020 42 209 c 1 50 53 47 40 .t 9 0.375 .006 O.Oli 35 209 c 2 ND ND 69 ND t q 0.375 .006 0.017 35 209 c 3 39 52 50 44 .a 9 0.375 .006 0.017 35 209 c 4 ND ND ND ND
  • 9 0.375 .006 0.017 35 209 D 1 72 ND ND 76 t 6 0.375 .006 0.018 38 209 D 2 ND. ND ND 48
  • 6 0.375 .006 0.018 38 209 D 3 NGO NUD NQD NGD
  • b 0.375 . .006 0.018 38 209 D 4 ND 60 70 62
  • Ii 0.375 .006 0.018 38 209 E 1 82 82 ND 81 ' 4 0.375 .006 0.020 42 209 E 2 ND ND ND 51
  • 4 0.375 .006 0.020 42 209 E 3 NGO NGD NGO NQD
  • 4 0.375 .006 0.020 42 209 E 4 71 65 65 72
  • 4 0.375 .006 0.020 42 209 F 1 ND ND ND ND
  • 2 0.375 .006 0.017 35 209 F 2 ND ND ND ND
  • 2 0.375 .006 0.017 35 209 F 3 NGO NQD NGO NGD ' 2 0.375 .006 0.017 35 209 F 4 ND ND ND ND ' 2 0.375 .006 0.017 35 210 A 1 53 53 53 53 * --0.375 .006 0.025 52 210 A ., 61 63 57 60 * --0.375 .OOli 0.025 52 " ** 210 A 3 47 50 55 50 ' --0.375 .006 0.025 52 210 A 4 55 58 56 61 ' --(l.375 .006 0.025 52 210 B 1 ND ND 28 ND l 10 0.375 .006 0.025 52

. . Page 22 of 136 ** CIRDATA.580 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH 7.DEPTH ----------------------------------------------------------------------------------------------- 210 B 'I ND ND ND ND t 10 0.375 .006 0.025 52 .. 210 B 3 ND ND ND ND

  • 10 0.375 .006 0.025 52 210 B 4 NGD NGD NGD NGD
  • 10 0.375 .006 0.025 52 210 c 1 ND ND 14 ND t 8 0.375 .006 0.025 52 210 c 2 ND ND 82 ND t 8 0.375 .006 0.025 52 210 c 3 NGD NGD NGD NGD t 8 0.375 .006 0.025 52 210 c 4 ND NGD NllD NGD t 8 0.375 .006 0.025 52 210 D 1 ND ND 77 ND
  • 6 0.375 .006 0.025 52 210 D 2 ND ND 82 ND
  • 6 0.375 .006 . 0.025 52 210 D 3 67 61 70 64
  • 6 0.375 .006 0.025 52 210 D 4 ND ND ND 15 t 6 0.375 .006 0.025 52 2.10 E 1 ND ND ND ND t 4 0.375 ,006 0.026 54 210 E 2 i3 ND ND ND
  • 4 0.375 .006 0.026 54 210 E 3 81 79 81 78
  • 4 0.375 .006 0.026 54
  • 210 E 4 NGD ND Bl 79 t 4 0.375 .006 0.026 54 210 F 1 45 53 53 50 t 2 0.375 .006 0.027 56 210 F 2 54 47 53 49 t 2 0.375 .006 0.027 56 210 F 3 64 74 78 70
  • 2 0.375 .006 0.027 56 210 F 4 51 SB 46 55
  • 2 0.375 .006 0.027 56 211 A 1 71 72 71 72 * --0.375 .006 0.030 63 211 A 2 73 15 70 74 t --0.375 .006 0.030 63 211 A 3 72 74 74 72 t --0.375 .006 0.030 63 211 A 4 73 73 72 72 t --0.375 .006 0.030 63 211 B 1 ND 20 22 28 a 10 0.375 .006 0.030 63 *** 211 B 2 ND ND ND ND t 10 0.375 .006 0.030 63 211 B 3 NGD NGD NGD NOD
  • 10 0.375 .006 0.030 63 211 B 4 NGD NOD NGD NGD t 10 0.375 .006 0.030 63 211 c 1 ND 14 7 34
  • B 0.375
  • 006 0.030 . 63. 211 c 2 ND ND
  • ND ND t B O.U5 .006 0.030 63 211 c 't Bl Bl 81 Bl
  • B 0.375 .006 0.030 63 .,, 211 c 4 NGD NGD NGD NGD
  • B 0.375 .006 0.030 63 211 D 1 ND ND ND . ND
  • 6 0.375 .006 0.032 67 211 D 'I ND 82 82 82 t 6 0.375 .006 0.032 67 ... 211 D .,. .J NGD NllD NGD NGO t 6" 0.375 .006 0.032 67 211 D 4 ND ND NQD Bl t . 6 0.375 .006 0.032 67 211 E 1 ND ND ND ND
  • 4 0.375 .006 0.031 65 211 E 2 82 82 82 82
  • 4 0.375 .006 0.031 65 211 E 3 72 66 69 68
  • 4 0.375 .006 0.031 65 211 E 4 70 NQD ND 78
  • 4 0.375 .006 0.031 65 . 211 F 1 ND ND BO ND
  • 3 0.375 .006 0.034 71 211 F 2 ND ND ND 81 t 3 0.375 .006 0.034 71 211 F 3 *81 Bl 81 78
  • 3 0.375 .006 0.034 71 211 F 4*'<'""-ND ND ND ND
  • 3 0.375 .006 0.034 71 212 A. ( 94 93 93 94 t --0.375 .006 0.049 100 212 . 2 94 92 94 94 t --0.375 .006 0.049 100 212 A 3 94 94 94 94 t . --0.375 .006 0.049 100 212 A 4 94. 94 94 94 * --0.375 .006 0.049 100 212 B 1 65 21 76 66 t 11 0.375 .006 0.049 100 212 B 2 45 55 ND B2 t 11 0.375 .006 0.049 100 *.-*. *. 212 B 3 67 60 59 70 t 11 0.375 .OOb 0.049 100 :. 212 B 4 NGD . NQD NGO 73
  • 11 0.375 .006 0.049 100 212 c 1 82 82 82 82 t 8 0.375 .006 0.049 100 212 c 2 24 ND 82 82 t 8 0.375 .006 0.049 100 Page 23 of. 136 .
  • CIRDATA.580 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH ZDEPTH -----------------------------------------------------------------------------------------------

212 c 3 81 Bl Bl Bl t B 0.375 .006 0.049 100 212 c 4 NllD ND ND ND

  • B 0.375 .006 0.049 100 212 D 1 B2 B2 B2 82
  • 6 0.375 .006 0.049 100 212 D 2 82 82 82 82
  • 6 0.375 .006 0.049 100 212 D 3 81 Bl 81 81 t 6 0.375 .006 0.049 100 212 D 4 82 82 82 82 t 6 0.375 .006 0.049 100 212 E 1 82 82 82 82
  • 4 0.375 .006 0.049 100 212 E 2 82 82 B2 82
  • 4 0.375 .006 0.049 100 212 E 3 81 81 81 81
  • 4 0.375 .* 006 0.049 100 212 E 4 82 ND 82 NllD
  • 4 0.375 .006 0.049 100 212 F 1 82' 82 82 B2 t 2 0.375 .006 0.049 100 212 F 2 B2 82 82 82 t 2 0.375 .006 0.049 100 212 F 3 81 81 81 81 t 2 0.375 .006 0.049 100 212 F 4 82 ND 82 NOD
  • 2 0.375 .OOb 0.049 100 * . **
  • Page 24 of 136 WASDATA.540
  • ID D.EF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH '.tDEPTH -----------------------------------------------------------------------------------------------

168 A 84 85 75 BS l 0.110 (l.110 0.029 60 168 A 2 74 74 73 74

  • 0.110 0.110 0.029 60 168 A 3 75 77 77 77
  • 0.110 0.110 0.029 60 168 A 4 74 72 74 76 l 0.110 0.110 0.029 60 168 B 1 58 56 56 58
  • 2 0.110 0.110 0.029 60 168 B 2 82 82 74 74 l 2 0.110 0.111) 0.029 60 168 B 3 65 82 70 70
  • 2 0.110 0.110 0.029 60 168 B 4 82 82 82 82
  • 2 0.110 0.110 0.029 60 168 c 1 62 59 57 61 l 4 0.110 0.110 0.030 63 168 c 2 82 82 74 82
  • 4 0.110 0.110 0.030 63 168 c 3 53 56 46 77
  • 4 0.110 0.110 0.030 63 168 c 4 73 77 72 77 l 4 0.110 0.110 0.030 63 168 D 1 63 80 69 63 6 0.110 0.110 0.030 63 168 D 2 79 82 81 79 6 0.110 0.110 0.030 63 168 D 3 ND NGD ND ND 6 0.110 0.110 0.030 63 168 D 4 NQD 82 NGD NGD 6 0.110 0.110 0.030 63 168 E 66 52 63 72 8 0.110 0 .110 0.030 63 168 E 2 52 80 69 71 8 0.110 0.110 (i.030 168 E 3 82 NGD ND ND
  • 8 0.110 0.110 0.030 63 168 E 4 NGD NGD NGO NQD a 8 0.110 0.110 0.030 63 168 F 1 36 36 37 44 l 10 0.110 0.110 0.028 58 168 F 2 40 48 57 42 l 10 0.110 0.110 0.028 58 168 F 3 54 68 ND ND
  • 10 0.110 0.110 0.028 58 168 F 4 ND ND ND ND
  • 10 0.110 0.110 0.028 58 (. 169 A 1 61 61 61 61
  • 0.109 0.109 0.028 58 169 A 2 65 65 65 64
  • 0.109 0.109 0.028 58 169 A 3 63 64 64 64
  • 0.109 0.109 0.028 58 169 A 4 64 63 63 64 0.109 0.109 0.028 58 169 B 1 64 67 66 64 2 0.109 0.109 0.029 60 169 B ,, 60 59 57 60
  • 2 0.109 0.109 0.029 ' 60 i. 169 B 3 73 76 75 76
  • 2 0.109 0.109 0.029 60 169 B 4 66 67 64 65 ' 2 0.109 0.109 0.029 60 169 c 1 55 55 55 53
  • 4 0.109 0.109 0.028 58 169 c 2 50 41 39 45
  • 4 0.109 0.109 0.028 58 169 c 3 68 63 61 65
  • 4 0.109 0.109 0.028 58 169 c 4 55 58 51 57 g 4 0.109 0.109 0.028 58 169 D 1 54 53 54 54
  • 6 0.109 0.109 0.029 60 169 D 2 54 47 40 46
  • 6 0.109 0.109 0.029 60 169 D 3 61 66 65 57 ' 6 0.109 0.109 0.029 60 169 D 4 68 67 67 66
  • 6 0.109 0.109 0.029 60 169 E 1 53 63 62 62
  • 7 0.109 0.109 0.028 58 169 E 2 60 56 59 57
  • 7 0.109 0.109 0.028 58 169 E 3 74 73 73 77
  • 7 0.109 0.109 0.028 58 169 E 4 68 68 67 67
  • 7 0.109 0.109 0.028 58 169 F 1 60 59 63 58
  • 10 0.109 0.109 0.028 58 169 F ,, 66 58 62 66
  • 10 0.109 0.109 0.028 58 i. 169 F ,:-71 75 76 74
  • 10 0.109 0.109 0.028 58 169 F 4 60 60 60 61
  • 10 l),109 0.109 0.028 58 170 A 1 58 62 60 61
  • 0.109 0.109 0.029 59 170 A 2 60 62 57 59 0.109 0.109 0.029 59 170 A "! 60 59 60 60 ' 0.109 0.109 0.029 59 * *J 170 A 4 60 60 60 60 0.109 0.109 (l.029 59 170 B 1 66 64 65 65 2 0.109 0.109 0.029 59 Page 25 of' l36 WASDATA.540
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC . AXIAL DEPTH I.DEPTH -----------------------------------------------------------------------------------------------

170 B " 73 67 57 68

  • 2 0.109 0.109 (i.029 59 " 170 E 3 76 80 76 76
  • 2 0.109 0.109 0.029 59 170 B 4 66 67 67 69
  • 2 0.109 0.109 0.029 59 170 c 1 63 74 65 64
  • 4 0.109 0.109 0.029 59 170 c 2 68 65 63 69
  • 4 0.109 0.109 0.029 59 170 c 3 79 79 80 82
  • 4 0.109 0.109 0.029 59 "170 ,.. 4 57 64 64 68
  • 4 0.109 0.109 0.029 59 L. 170 D 1 66 66 66 68 l 6 0.109 0.109 0.029 59 170 D " 69 68 67 65 l 6 0.109 0.109 0.029 59 ,;. 170 D 3 81 82 79 82 l 6 0.109 0.109 0.029 59 170 D 4 61 72 70 76
  • 6 0.109 0.109 0.029 59 170 E 1 77 82 76 64 l B 0.109 0.109 0.029 59 170 E 2 81 68 82 73
  • 8 0.109 0.109 0.029 59 170 E 3 79 81 80 66 t 8 0.109 0.109 0.029 59 170 E 4 75 71 79 73
  • 8 0.109 0.109 0.029 59 170 F 1 60 58 60 59
  • 10 0.109 0.109 0.029 59 170 F 2 69 74 70 69 l 10 0.109 0.109 0.029 59 170 F 3 bO 57 54 58
  • 10 0.109 0.109 0.029 59 170 F 4 S4 S8 60 56
  • 10 0.109 0.109 0.029 59 178 A 1 97 97 95 95 * --o.oso 0.050 0.049 100 178 A 2 97 96 96 97 ' --0.050 0.050 0.049 100 178 A 3 95 96 94 94 * --o.oso 0.050 0.049 100 178 A 4 --97 97 96 96 * --o.oso 0.050 0.049 100 178 B 1 75 75 75 77 * --0.075 0.075 0.037 80
  • 178 B 2 75 74 74 74 * --0.07S 0.07S 0.037 BO 178 B 3 74 74 74 72 l --0.07S 0.075 0.037 80 178 B 4 74 76 76 75 * --0.075 0.075 0.037 80 178 c 1 S5 SS S2 52 * --0.110 0.110 0.027 59 178 c 2 54 53 53 53 * --0.110 0.110 0.027 59 178 c T so 50 so 48 * --0.110 0.110 0.027 59 ,, 178 c 4 S3 53 S2 53 * --0.110 0.110 0.027 59 178 D 1 46 44 44 45 * --0.190 0.190 0.018 39 178 D 2 42 43 45 44 * --0.190 0.190 0.018 39 178 D 3 44 42 45 40 * --0.190 0.190 0.018 39 178 D 4 40 43 . 46 45 * --0.190 0.190 0.018 39 17B E 1 21 22 15 21 * --0.190 0.190 0.009 20 178 E 2 19 19 24 18 * --0.190 0.190 0.009 20 178 E 3 20 20 17 21 t --0.190 0.190 0.009 20 178 E 4 24 26 27 26 ' --0.190 0.190 0.009 20 302 A 1 70 74 77 82 l 2 0.196 .688 0.038 iB 302 A 2 78 6S 67 67
  • 2 0.196 .688 0.038 78 302 A 3 82 82 82 82 l 2 0.196 .688 0.038 78 302 A 4 73 79 76 79 l 2 0.196 .688 0.038 78 302 B 1 56 53 -Sl 53
  • 2 0.196 .7SO 0.030 bl . 302 B ., 59 *se 57 58
  • 2 0.196 .750 0.030 61 L 302 B 3 79 76 74 76
  • 2 0.196 .750 0.030 61 302 B 4 59 65 64 65 i 2 0.196 .750 0.030 61 302 c 1 35 35 35 42 ' 2 0.196 1.500 0.017 35 302 c 2 34 39 24 21 l 2 0.196 1.SOO 0.017 35 302 c 3 38 37 23 55
  • 2 0.196 1.500 0.017
. 302 c 4 36 51 48 51 l 2 0.196 1.500 0.017 35 302 D 1 22 ND ND NO l 2 0.196 .688 0.010 20 302 0 2 NGO 11 NGD NQD
  • 2 0.196 .688 0.(110 20 Page 26 of 136 WASDATA.540
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH 7.DEPTH -----------------------------------------------------------------------------------------------

302 D 3 27 NGD NGD ND t 2 0.196 .688 0.010 20 302 D 4 25 NGD NGD NGD t ., 0.196 .688 0.010 20 '" 303 A 1 75 79 75 70 t 2 0.588 .813 0.036 73 303 A " 78 69 76 70 t 2 0.588 .813 0.036 73 4. 303 A ,. 82 82 82 82 t 2 0.588 .813 0.036 73 ., 303 A 4 78 82 80 82 t 2 0.588 .813 0.036 73 303 B 1 53 49 48 47 t 2 0.588 .688 0.028 57 303 B 2 55 50 53 49 t 2 0.588 .688 0.028 57 303 B 3 69 74 70 65

  • 2 0.588 .688 0.028 57 303 B 4 53 59 57 58 t 2 0.588 .688 0.028 57 303 c 1 34 34 32 29 t 2 0.588 .688 0.018 37 303 c 2 41 29 29 34 t 2 0.588 .688 0.018 37 303 c 3 30 41 36 36 t 2 0.588 .688 0.018 37 303 ., !; 4 36 45 46 47 t 2 0.588 .688 0.018 37 303 D 1 29 30 34 30 t i 0.588 .813 0.015 31 303 D 2 16 28 27 30 t 2 0.588 .813 0.015 31 303 D 3 24 26 23 31 t 2 0.588 .813 0.015 31 303 D 4 33 43 43 45 g ., 0.588 .813 0.015 31 4. 306 A BO 81 80 76 t 4 0.196 .688 0.040 82 306 A 2 . 82 72 75 73 t 4 0.196 .688 0.040 82 306 A 3 82 82 82 *02
  • 4 0.196 .688 0.040 82 306 A 4 BO 82 82 82
  • 4 0.196 --;6B8 0.040 82 306 B 1 55 53 54 54
  • 4 0.196 .750 0.029 59 306 B 2 56 49 50 50 t 4 0.196 .750 0.029 59 *'.:. 306 B 3 77 79 76 76 t 4 0.196 .750 0.029 59 306 B 4 60 65 64 63 t 4 0.196 .750 0.029 59 306 c 1 41 46 46 31
  • 4 0.196 1.063 0.018 37 306 c 2 21 20 14 18
  • 4 0.196 1.063 0.018 37 306 c 3 50 52 53 44 t 4 0.196 1.063 0.018 37 306 . c 4 40 51 51 51. t 4 0.196 1.063 0.019 37 306 D 1 ND 6 30 ND t 4 0.196 .563 0.011 22 306 D 2 NQD NQD
  • tiGD. NOD
  • 4 0.196 .563 0.011 22 306 D 3 NQD 64 ND ND
  • 4 0.196 .563 0.011 22 306 D 4 34 ND ND. ND t 4 0.196 .563 0.011 22 307 A 1 69 68 . 77 68 l 4 0.588 .813 0.035 71 307 A 2 74 68 77 78
  • 4 0.588 .813 0.035 71 307 A 3 82 82 82 82
  • 4 0.588 .813 0.035 71 307 A 4 74 79 78 75
  • 4 0.588 .813 0.035 71 307 B 1 55 57 55 49
  • 4 0.588 .750 0.028 57 307 B 2 60 53 56 50
  • 4 0.588 .750 0.028 57 307 B 3 75 77 75 74 l 4 (1.588 .750 0.028 57 307 B 4 57 61 59 61 l 4 0.588 .750 0.028 57 307 c 1 37 40 39 39 t 4 0.588 .750 0.019 39 307 c 2 42 36 53 32 t 4 0.588 .750 0.019 39 307 c 3 56 64 56 59 4 0.588 .750 0.019 39 307 c 4 40 49 47 51 4 0.588 .750 0.019 39 307 D 1 37 39 37 39 l 4 0.588 .813 0.015 31 307 D ., 28 28 36 29 t 4 0.588 .813 0.015 31 i. 307 D 3 53 57 50 50 l 4 0.588 .813 0.015 31 307 ii 4 36 45 46 45
  • 4 0.588 .813 0.015 31
  • 310 A 1 75 82 79 75 l B 0.196 .813 0.039 BO 310 A ., 82 82 82 82
  • 8 0.196 .813 0.039 80 '" 310 A 3 82 82 81 82 t 8 0.196 .813 0.039 so Page 2 7 of 136 WASDATA.540
  • ID DEF PRO ECTl ECT2 Ecn ECT4 ECT5 DENT CIRC AXIAL DEPTH ZDEPTH -----------------------------------------------------------------------------------------------

310 A 4 BO B2 B2 77

  • B 0.196 .B13 0.039 BO 310 B 1 51 53 53 51 l B 0.196 .750 0.029 59 310 B 2 67 68 54 70
  • B 0.196 .750 0.029 59 310 B 3 56 63 66 62
  • B 0.196 .750 0.029 59 310 B 4 59 60 61 63
  • B 0.196 .750 0.029 59 310 c 1 49 49 49 4B
  • B 0.196 .750 0.019 39 310 c 2 55 54 53 55
  • B 0.196 .750 0.019 39 310 c 3 47 44 50 50
  • B 0.196 .750 0.019 39 310 c 4 48 55 55 55 l B 0.196
  • 750 0.019 39 310 D 1 ND ND ND ND l B 0.196 .6BB 0.010 20 310 D 2 14 52 52 58
  • B 0.196 .688 0.010 20 310 D .., 61 48 58 47
  • 8 0.196 .688 0.010 20 .,) 310 D 4 47 ND ND ND l 8 0.196 .688 0.010 20 311 A 68 64 69 72
  • 8 0.588 .750 0.038 78 311 A 2 82 79 77 79
  • 8 0.588 .750 0.038 78 311 A 3 79 76 75 74
  • 8 0.588 .750 0.038 78 311 A 4 7B 79 75 79
  • 8 0.588 .750 0.038 78 311 B 1 51 56 55 52
  • 8 0.588 .750 0.030 61 311 B 2 69 73 73 57
  • 8 0.588 .750 0.030 61 311 B 3 59 48 56 56
  • B 0.588 .750 0.030 61 311 B 4 63 . 60 60 62 t 8 0.588 .750 0.030 61 311 c 1 41 42 43 43
  • B 0.588 .750 0.021 43 311 c 2 52 49 54 46
  • B 0.588 .750 0.021 43 311 c 3 36 40 40 38
  • 8 0.588 .750 0.021 43 *** 311 c 4 47 49 51 51
  • 8 .0.588 .750 0.021 43 311 D 1 40 39 39 37 g B 0.588 .813 0.016 33 311 D 2 42 43 32 38
  • 8 0.588 .813 0.016 33 311 D 3 28 30 30 27 * . 8 0.588 .813 0.016 33 311 D 4 38 53 53 50
  • 8 0.588 .B13 0.016 33 314 A 1 67 67 67 73
  • 10 0.196 .6BB 0.038 77 314 A 2 82 82 79 81
  • 10 0.196 .6BB 0.038 77 314 A 3 74 72 73 73
  • 10 0.196 .688 0.038 77 314 A 4 79 67 82 76
  • 10 0.196 .688 0.038 77 314 B 1 56 55 56 57
  • 10 0.196 .750 0.031 63 314. B 2 76 76 67 70
  • 10 0.196 .750 0.031 63 314 B 3 63 59 59 63
  • 10 0.196 .750 0.031 63 314 B 4 71 59 58 59 g 10 0.196 .750 0.031 63 314 c 1 55 55 58 55 t 10* 0.196 .813 0.020 41 314 c 2 66 61 59 67 ' 10 0.196 .813 0.020 41 314 c 3 51 46 45 42
  • 10 0.196 .813 0.020 41 314 c 4 54 47 45 47
  • 10 0.196 .813 0.020 41 314 D 1 58 71 69 62
  • 10 0.196 .813 0.012 20 314 D 'l 65 51 54 67
  • 10 0.196 .813 0.012 20 ... 314 0 3 48 48 50 50
  • 10 0.196 .813 0.012 20 314 0 4 58 58 NQD NQD
  • 10 0.196 .813 0.012 20 315 A 82 82 80 82 g 10 0.588 1.000 0.039 BO 315 A 2 82 82 82 82
  • 10 0.588 1.000 0.039 BO 315 A 3 82 82 82 82
  • 10 0.588 1.000 0.039 80 315 A 4 82 82 82 82 ' 10 0.588 1.000 0.039 i80 315 B 1 50 54 52 51
  • 10 0.588 .813 0.029 59 ,. 315 B 2 69 68 73 61 ' 10 0.588 .813 0.029 59 315 B 3 59 49 58 56
  • 10 0.588 .B13 0.029 59 315 B 4 64 57 57 59 ' 10 0.568 .813 0.029 59 Page 28 of 136 WASDATA.540
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH i:DEPTH -----------------------------------------------------------------------------------------------

315 c 1 46 43 44 44 i 10 0.588 .875 0.020 41 315 c 2 51 44 51 47 l 10 0.588 .875 0.020 41 315 c 3 37 32 34 34 l 10 0.588 .875 0.020 41 315 c 4 51 43 47 49 l 10 0.588 .875 0.020 41 315 D 1 42 41 42 45 l 10 0.588 .688 0.016 33 315 D 2 46 43 43 45 t 10 0.588 .688 0.016 33 315 D 3 35 34 36 34

  • 10 0.588 .688 0.016 33 315 Ii 4 51 46 52 51 l 10 0.588 .688 0.016 33 317 A 1 82 a2 78 82
  • 2 0.078 0.078 0.038 76 317 A 2 82 82 82 82 2 0.078 0.078 0.038 76 317 A 3 82 82 82 82 2 0.078 0.078 0.038 76 317 A 4 82 82 82 82 l 2 0.078 0.078 0.038 76 317 B 1 82 82 82 82 l 4 0.078 0.078 0.040 80 317 B 2 82 82 82 82 g 4 0.078 0.078 0.040 BO 317 B 3 82 82 82 82 l 4 0.078 0.078 0.040 BO 317 B 4 82 82 82 82 4 0.078 0.078 0.040 80 317 c 1 82 82 82 82 8 0.078 0.078 0.040 80 317 c 2 82 82 82 82 8 0.078 0.078 0.040 BO 317 c ,) 82 82 82 82 l 8 0.078 0.078 0.040 80 317 c 4 82 82 82 82
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  • 4 0.190 0.190 0.012 25 319 A 4 ND ND ND ND l 4 0.190 0.190 0.012 25 319 B 1 ND ND ND NGD
  • 5 0.190 0.190 0.014 29 319 B 2 NGD NGO NGO NGD
  • 5 0.190 0.190 0.014 29 319 B 3 ND ND ND ND i 5 0.190 0.190 0.014 29 319 . B 4 ND ND ND ND l 5 0.190 0.190 0.014 29 319 c 1 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 c 2 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 c 3 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 c 4 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 D 1 ND ND ND ND
  • 11 0.190 0 .. 190 0.012 25 319 D 2 NGO ND ND ND
  • 11 0.190 0.190 0.012 25 319 D 3 NQD NGD 43 27
  • 11 0.190 0.190 0.012 25 319 D 4 27 . ND ND ND 11 0.190 0.190 0.012 25 320 A 1 82 82 82 82 2 0.080 0.080 0.040 83 320 A 2 82 NQD NGD NGD 2 0.080 0.080 0.040 83 320 A 3 82 82 82 82 2 0.080 0.080 (l.040 83 320 A 4 82 82 82 82 2 0.080 0.080 0.040 83 320 B 1 82 82 82 82 5 0.080 0.080 0.040 83 320 B 2 82 NGD 82 82 5 0.080 0.080 0.040 83 320 B 3 82 82 82 82 g 5 0.080 0.080 0.040 83 320 B 4 82 82 82 82
  • 5 0.080 0.080 0.040 83 320 c 1 71 82 82 82
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  • 8 0.080 0.080 0.038 79 320 D 1 63 60 51 ND l 10 0.080 0.080 0.036 75 Page 29 of 136 WASDATA.540
    • ID DEF PRO ECTl ECT2 ECT3 ECT4 . ECT5 DENT CIRC AXIAL DEPTH

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  • Page 30 of 136 WASDATA.540
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

320 D 2 67 55 82 55 l 10 O.OBO O.OBO 0.036 75 320 D 3 75 73 74 71

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  • 10 0.078 0.07B 0.040 BO 369 B 1 64 B2 ND ND t 10 0.109 0.109 0.030 60 369 B 2 19 12 75 79 l 10 0.109 0.109 0.030 60 369 B ,} ND ND ND ND l 10 0.109 0.109 0.030 60 369 B 4 ND ND ND ND t 10 0.109 0.109 0.030 60 369 c 1 B2 B2 ND ND l 10 0.1B7 0.1B7 0.020 40 369 c 2 77 2 82 BO l 10 0.187 0.1B7 0.020 40 369 c 3 NQD ND ND ND
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  • l l INC INC INC INC 38 INC INC INC NGD mm NGD NGD 9 ND 10 NO 9 NQD 8 4 29 22 tlllD NGD 26 78 NGD 71 ND ND ND . ND s
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  • *** .... Page 32 of 136 iSADATA. 540 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI . MAI l'IP AS MAS DENT AXIAL CIRC
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-Page 33 of 136 ISAOATA.540

  • IO DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI MAI i'IP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

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  • 13.5 14.4 4B.O 26.7 28.6 8 0.20 0.588 30 403 D ' ND ND ND ND l 13.5 14.4 48.0 26.7 28.6 8 0.20 0.588 30 *J 403 D 4 ND tlD tlD ND i 13.5 14.4 48.0 26.7 28.6 8 . 0.20 0.5BB 30 403 E 1 20 21 13 12 i 11. 7 14.0 33.1 21.7 24.3 8 0.20 0.5SB 30 403 E 2 . 29 22 14 23 * .. 11. 7 14.0 33.1 21.7 24.3 8 0.20 0.588 30 \. 403 E .,. 18 21 17 17 i 11. 7 14.0 33.1 21. 7 24.3 8 0.20 0.5B8 30 .;, 403 47 30 I E 4 46 42 i 11. 7 14.0 33.1 21.7 24.3 8 0.20 0.58B 30 Page 34 of l36 ISADATA.540
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI HAI HP AS HAS DENT AXIAL CIRC DEPTH 404 D 1 16 16 12 19
  • 16.1 16.4 59.2 33.4 34.3 8 0.20 0.588 20 404 D " 33 26 26 22
  • 16.1 16.4 59.2 33.4 34.3 8 0.20 0.588 20 L 404 D 3 22 9 8 15
  • 16.1 16.4 59.2 33.4 34.3 8 0.20 0.588 20 404 D 4 37 37 41 35
  • 16.1 16.4 59.2 33.4 34.3 B 0.20 0.588 20 404 E 1 ND ND NGD NGD
  • 15.9 19.7 52.3 37.2 37.3 B 0.20 0.588 20 404 E 2 ND NGD NGD ND
  • 15.9 19.7 52.3 37.2 37.3 B 0.20 0.588 20 404 E _, ND HD NGD NGD
  • 15.9 19.7 52.3 37.2 37.3 B 0.20 0.588 20 404 E 4 ND ND NGD ND
  • 15.9 19.7 52.3 37.2 37.3 B 0.20 0.588 20 405 D 1 37 40 39 39
  • 49.5 50.8 84.1 8 0.20 0.588 40 405 D " 41 41 38 41
  • 49.5 50.8 84.1 B 0.20 0.588 40 l. 405 D 3 42 44 44 45
  • 49.5 50.8 84.1 8 0.20 0.588 40 405 D 4 51 49 49 49
  • 49.5 50.8 84.1 B 0.20 0.588 40 405 E 1 13 19 10 NGD
  • 36.6-46.8 65.3 B 0.20 0.588 40 405 E 2 ND ND 1 8
  • 36.6 46.B 65.3 8 0.20 0.588 40 405 E 3 4 e 25 16
  • 36.6 46.8 65.3 8 0.20 0.588 40
  • 405 E 4 55 NGD 56 53
  • 36.6 46.8 65.3 8 0.20 0.588 40 406 D 1 39 45 41 45
  • 59.B 61. 7 90.8 B 0.20 0.588 50 406 D " 44 46 . 46 43
  • 59.8 61.7 90.8 8 0.20 0.588 50 l. 406 D "T 48 47 48 47 l 59.8 61.7 90.B 8 0.20 0.588 50 " 406 D 4 53 52 52 62
  • 59.8 61. 7 90.B 8 0.20 0.588 50 406 E 1 37 27 15 16
  • 49.0 57.3 74.8 8 0.20 0.588 50 406 E 2 12 19 30 17
  • 49.0 57.3 74.B B 0.20 0.588 50 406 E 3 28 16 44 36
  • 49.0 57.3 74.8 8 0.20 0.588 50 406 E 4 59 54 60 53
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  • 63.0 64.6 88.8 8 0.20 0.588 60 (;. 407 D 2 56 54 56 51
  • 63.0 64.6 88.8 8 0.20 0.588 60 407 D 3 55 55 55 58
  • 63.0 64.6 88.8 8 0.20 0.588 60 407 D 4 57 57 58 58
  • 63.0 64.6 88.8 B 0.20 0.588 60 407 E 1 34 28 25 22
  • 50.6 59.0 72.6 8 0.20 0.588 60 407 E 2 29 29 32 29
  • 50.6 59.0 . 72.6 8 0.20 0.588 60 407 E 3 27 27 37 42
  • 50.6 59.0 72.6 8 0.20 0.588 60 407 E 4 55 49 53 53
  • 50.6 59.0 72.6 B 0.20 0.588 60 408 D 1 82 82 82 82
  • 91.6 92.2 100.0 B 0.20 0.588 80 408 D 2 82 82 82 82
  • 91.6 92.2 100.0 B 0.20 0.588 80 408 D 3 82 82 82 82 ' 91.6 92.2 100.0 8 0.20 0.588 80 408 D 4 82 82 82 82
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  • 81.0 BB.9 100.0 8 0.20 0.588 100 409 E 4 82 82 82 BO
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  • 24.8 31.2 60.1 47.0 48.4 10 0.20 0.588 30 Page 35 of 136 IBADATA.540
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI l'IAI l'IP AS l'IAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

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  • 64.3 65.3 95.8 . 10 0.20 0.588 50 413 E 1 52 39 32 34
  • 56.6 64.7 74.8 10 0.20 0.588 50 413 E 2 30 37 34 32 i 56.6 64.7 74.8 10 0.20 0.588 50 ** 413 E 3 46 47 51 49
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  • 65.2 67.3 100.0 10 0.20 0.588 100 416 D 4 73 72 73 73 i 65.2 67.3 100.0 10 0.20 O.SBB 100 416 E 1 67 64 70 67
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  • 34.9 36.0 70.3 56.9 57.9 12 0.20 0.588 30 i.
  • \.. ' ..* ISADATA.540 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 417 D 417 D 417 t 417 E 417 E 417 E 418 D 418 D 418 D 418 D 418 E 418 E 41B E 418 E 419 D 419 D 419 D '! *.J 4 2 3 4 1 2 '! *.J 2 3 4 i 2 '! ,. 419 D
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  • Page 37 of 136 I SADA TA. 540 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI MAI MP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

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  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECTS AI MAI MP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

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  • 49.3 52.9 68.5 63.5 63.5 20 0.20 0.588 60 435 E ., 35 35 41 37 t 49.3 52.9 68.5 63.5 20 0.20 (l.588 60 .. 435 E 3 31 41 55 t 49.3 52.9 68.5 63.5 63.5 20 0.20 0.588 60 435 E 4 . 68 59 61 .62
  • 49.3 52.9 68.5 63,5 63.5 20 0.20 0.588 60 m D 1 73 72 71 71
  • 77.5 78.1 n.2 20 0.20 0.588 80 Cb D . 2 65 63 63 63
  • 77.5 78.1 93.2 20 0.20 0.588 80 436 D 3 78 78 78 78 l 77.5 78.1 93.2 20 0.20 0.588 80 436 D 4 82 82 82 82 i 77.5 78.1 93.2 20 0.20 0.588 80 436 E 1 51 55 47 44 s 72.6 76.3 94.9 20 0.20 0.588 80 436 E 2 52 55 55 55 i 72.b 76.3 94.9 20 . 0.20 0.588 80 436 E 3 47 47 53 59 i 72.6 76.3 94.9 20 0.20 o'.588 80 436 E 4 64 60 59 bl
  • 72.6 76.3 94.9 20 0.20 0. 588 BO :. 437 D f 68 68 65 66 l 74.2 74.5 92.1 20 0.20 0.588 100
  • 437 D ., 60 59 59 59 i 74.2 74.5 92.1 20 0.20 0.588 100 I..
    • :.(. " ISADATA.540 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 437 D 437 D 437 E 437 E 437 E 437 E 438 D 438 D 438 D 438 D 438 E 438 E 438 E 438 t:. 439 D 439 D 439 D rn :. 439 E mE 439 E 439 E 440 D 440 D 440 D 440 D 440 C' 440 E 440 E 440 E t41 D 441 D 441 D 441 441 E 441 E 441 E 441 E 442 D 442 D 442 D 442 D 442 E 442 E H2 E mE 443 D 443 D 443 D 443 E 443 E E 4 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 2 '!' *j 4 1 2 3 4 1 2 '!' *j ' 2 2 3 4 2 '!' ,,, 4 2 3 4 1 2 3 4 2 72 72 74 75 54 46 57. 58 43 61 69 59 66 64 57 56 75 77 82 82 NQD 8 29 21 24 <20 bb bl ND NGD ND ND ND ND ND ND 29 46 ND ND NGD NGD 74 ND bb 62 60 ND 74 75 79 77 NllD NGD ND ND NGD NGO
  • 59 66 65 59 ND 75 77 78 78 NGD NGD 24 ND NGD NGD 63 59 74 73 82 ND 82 82 82 82 25 29 39 NDG NGD 68 63 82 82 80 ND 82 82 82 82 wm NllD 82 ND 82 82 74 74 50 56 64 60 70 55 77 82 8 24 NGD 55 82 75 77 48 57 69 "l!' ,.,, 66 54 79 82 '!' *j 31 43 49 NGD ND ND NGD NllD ND . ND 20 37 ND ND NGD 54 ND 62 61 62 ND ND 77 78 77 78 NllD ND ND NGD 46 53 57 63 69 ND ND 77 78 79 76 NGD NGD tlD 15 40 55 56 56 71 72 ND ND 82 82 82 82 12 5 ND ND 45 55 65 63 82 82 ND ND 82 82 82 82 NGD NQD ND ND 82 82 l s s s l s s l
  • l s AI 74.2 74.2 71.2 71.2 71.2 71.2 46.4 46.4 46.4 46.4 35.7 35.7 35.7 35.7 22.5 22.5 22.5 ,,,, c i.l..1..i 17.6 17.6 17.6 17.6 46.0 46.0 46.0 46.0 40.2 40.2 40.2 40.2 47.6 47.6 47.6 47.6 43.5 43.5 43.5 43.5 63.7 63,7 63.7 63.7 61.9 61.9 61.9 61. 9 B0.1 80.1 80.i 80.1 78.6 78.6 78.6 MAI 74.5 74.5 74.0 74.0 74.0 74.0 48.5 48.5 48.5 48.5 42.3 42.3 42.3 42.3 23.1 23.1 23.1 23.1 21.0 21.0 21.0 21.0 46.6 46.6 46.6 46.6 51.B 51.8 51.8 51.8 50.0 50.0 50.0 50.0 48.8 48.8 48.8 48.8 65.2 65.2 65.2 65.2 67.6 67.6 67.6 67.6 82.9 82.9 82.9 82.9 85.2 85.2 85.2 l'IP 92.1 92.1 89.9 89.9 89.9 89.9 73.1 73.1 73.1 73.1 84.4 84.4 84.4 84.4 61.7 61. 7 6L7 61. 7 51. 5 51.5 51.5 51.5 72.B 72.8 72.8 72.8 86.1 86.1 86.1 86.1 70.0 70.0 70.0 70.0 80.4 80.4 80.4 80.4 91.1 91.1 91.1 91.1 87.8 87.8 87.8 87.S 100.0 100.0 100.0 100.0 100.0 100.0 100.0 AS 60.5 60.5 60.5 60.5 49.B 49.8 49.8 49.8 39.3 39.3 39.3 39.3 66.6 . 66.6 66.6 66.6 61.3 61.3 61.3 61.3 Page 39 of 136 l'IAS DENT 73.1 73.1 73.1 73.1 53.5 53.5 53.5 53.5 39.6 39.6 39.6 39.6 72.9 72.9 72.9 72.9 68.6 68.6 68.6 68.6 20 20 20 20 20 20 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 AXIAL CIRC DEPTH 0.20 0.588 100 0.20 0.588 100 0.20 0.588 100 0.20 0.588 100 0.20 0.588 100 0.20 0.588 100 0.20 0.588 30 0.20 0.588 30 0.20 0.588 30 0.20 0.588 30 0.20 0.588 30 0.20 0.588 30 0.20 0.588 30 0.20 0.588 30 0.20 0.588 20 0.20 0.588 20 0.20 0.588 20 0.20 0.588 20 0.20 0.588 20 0.20 0.588 20 0.20 0.588 20 0.20 o.588 20 0.20 ----0:500 40 0.20 0.588 40 0.20 0.588 40 0.20 0.588 40 0.20 0.588 40 0.20 0.588 40 0.20 0.588 40 0.20 0.588 40 0.20 0.588 50 0.20 0.588 50 0.20 0.588 50 0.20 0.588 50 0.20 0.588 50 0.20 0.588 50 0.20 0.588 so 0.20 0.588 50 0.20 0.588 60 0.20 0.588 60 0.20 0.588 60 0.20 0.588 60 0.20 0.588 60 0.20 0.588 60 0.20 C.588 60 0.20 0.588 60 0.20 0.588 80 0.20 0.588 80 0.20 0.588 80 0.20 0.588 80 0.20 0.588 80 0.20 0.588 80 0.20 0.588 80
  • .... Page 40 of 136 !SADIHA.540 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI MAI MP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

443 E 444 D 444 D .444 D 444 D 444 E 444 E 444 E 444 E 445 D 445 D 445 D 445 D 445 E 445 t. 445 E 445 i:. 446 D 446 D 446 i) 446 D 446 E 446 E 446 E 446 E 447 D 447 D 447 D 447 D 447 E 447 E 447 E 447 E ?48 D 448 D 448 D 448 D 448 E 448 E 448 E 448 c: 449 D 449 D 449 n 4;9 D 449 E 449 E 449 E 449 E 450 D -i}(l :J 450 D 450 D 4 2 3 4 2 3 4 2 3 4 2 .) 4 2 4 1 2 3 4 2 3 4 2 4 1 3 4 1 2 "i ., 4 2 3 .. 2 3 4 1 4 82 82 82 82 82 NGD 82 NGD 82 ND ND ND 82 82 82 82 82 NGD 82 NGD NGD NGO NGD NQD 82 ND ND ND NGD 82 NGD 82 82 . ND NGD NGD ND ND NGD ND NOD ND ND ND NGO NOD NGD NGD ND ND ND ND ND Nil NGD ND NllD ND ND ND NQD NGO NGD NGD ND ND ND ND ND ND NGD ND NGO ND ND ND NOD NGO NGO NGO ND ND ND ND ND ND NOD ND NllD ND ND ND NGD NGO NGO NGO ND ND ND ND ND NGD

  • 82 NQD 82 ND ND ND NGO NGD NQD NGD NGD ND ND ND NGO NGD NQD NGD tmD ND ND ND N9D NGD NGD N9D ND ND ND tlD NQD NGD 82 NGD ND . ND ND tlD NOD NGD NGD NGO ND ND ND ND NOD NQD NQD NGD ND ND ND ND NGD NOD NGD . NGD ND ND tm 82 82 82 82 ND ND . ND ND NQD 82 NQD 82 t-IGD NQD ND ND NQD NQD NGD NGD ND ND ND ND NQD NQD NGD NQD ND ND ND ND NQD NGD NGD NOD ND ND ND ND NGD NGD NGD NOD NGD NQD ND ND 78.6 78.3 78.3 78.3 78.3 83.3 83.3 83.3 12.5 12.5 12.5 12.5 9.4 9.4 9.4 9.4 9,7 9.i 9.7 9.7 8.1 8.1 8.1 8.1 48.2 48.2 48.2 48.2 40.4 40.4 40.4 40.4 34.0 34.0 34.0 34.0 34.1 34.1 34.1 34.1 56.9 56.9 56.9 56.9 54.2 54.2 54.2 54.2 93.3 93.3 93.3 93.3 85.2 81.2 81.2 81.2 81.2 87.7 87.7 87.7 87.7 13.2 13.2 13.2 13.2 10.9 10.9 10.9 10.9 10.2 10.2 10.2 10.2 10.2 10.2 10.2 10.2 49.3 49.3 49.3 49.3 44.4 44.4 44.4 44.4 34.9 34.9 34.9 34.9 38.0 38.0 38.0 38.0 58.7 58.7 58.7 58.7 57.0 57.0 57.0 57.0 94.1 94.1 94.1 94.1 100.0 100.0 100.0 100.0 100.0 97.3 97.3 97.3 97.3 29.9 29.9 29.9 29.9 27.2 27.2 27.2 27.2 51. 7 51. 7 51. 7 51. 7 21.3 21.3 21.3 21.3 69.2 69.2 69.2 69.2 78.2 78.2 78.2 78.2 71.5 7L5 71.5 71. 5 63.1 63.1 63.1 63.1 73.3 73.3 73.3 73.3 88.0 88.0 . 88.0 88.0 100.0 100.0 100.0 100.0 23.0 23.0 23.0 23.0 24.2 24.2 24.2 24.2 17.2 17.2 17.2 17.2 56.0 56.0 56.0 56.0 49.0 49.0 49,0 49.0 47.3 47.3 47.3 47.3 25.8 25.8 25.8 25.8 26.9 26.9 26.9 26.9 17 .2* 17.2 17.2 17.2 62.5 62.5 62.5 62.5 49.7 49.7 49.7 49.7 49.7 49.7 49.7 49.7 25 0.20 25 0.20 25 0.20 25 0.20 25 0.20 25 0.20 25 0.20 25 0.20 25 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30. 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 0.20 30 o. 20 30 0.20 30 0.20 30 0.20 30 0.20 0.588 80 0.588 100 0.588 100 0.588 100 0.588 100 0.588 100 0.588 100 0.588 100 0.588 100 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 30 0.588 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588. 20 0.588 20 0.588 20 0.588 40 0.588 40 0.588 40 0.588 40 0.588 40 0.588 40 0.588 40 0.588 40 0 .588 50 0.588 50 0.588 50 0.588 so 0.588 50 0.588 50 0.588 50 0.588 50 0.588 60 0.588 60 0.588 60 0.588 60 0.588 60 o. 588 60 0.588 60 0.588 60 0.588 80 0.588 80 0.588 80 0.588 80 Page 41 of 136 ISA DATA. 540
  • ID DEF PRO ECTl ECT2 ECT3 ECH ECT5 AI MAI MP AS MS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

450 r-1 NOD NOD NOD NGD l 90.5 Q" 7 100.0 30 0.20 0.588 80 [. .. ,J,.,.J 450 E 2 ND ND ND ND l 90.5 92.3 100.0 30 0.20 0.588 .so 450 E 3 NGD NGD NllD NllD l 90.5 92.3 100.0 30 0.20 0.588 80 450 E 4 NGD ND ND ND l 90.5 92.3 100.0 30 0.20 0.588 ao 451 D 1 NGD N!lD N!lD NllD ' l 92.4 94.4 100.0 30 0.20 0.588 100 451 D 2 ND ND ND ND ' 92.4 94.4 100.0 30 0.20 0.588 100 451 D 3 NGD NGD N!lD NGD ' 92.4 94.4 100.0 30 0.20 0.588 100 451 !) 4 ND NGO ND ND l 92.4 94.4 100.0 30 0.20 0.588 100 451 c: 1 NGD NllD 28 42 ' 89.3 92.8 99.2 30 0.20 0.588 100 ... 451 E ., ND ND ND ND l 89.3 92.8 99.2 30 0.20 0.588 100 l. 451 E 3 NGD 52 NllD NGO l 89.3 92.8 99.2 30 0.20 0.5BB 100 451 E 4 ND ND ND 82 l 89.3 92.8 99.2 30 0.20 0.588 100 464 D 1 ND 35 38 21 l 12.4 13.4 19.9 ---0.20 0.588 30 464 D 2 23 16 21 13 l 12.4 13.4 19.9 ---0.20 0.588 30 464 D 3 ND ND ND NGD l 12.4 13.4 19.9 ---0.20 0.588 30 464 D 4 13 18 10 9 l 12.4 13.4 19.9 ---0.20 0.588 30 464 E 1 15 17 18 ... ., l 15.6 15.8 23.2 ---0.20 0.588 30 l.l. 464 E 2 16 13 20 16 l 15.6 15.8 ?"r 'l *V*" ---0.20 0.588 30 464 E "'( " 10 24 12 10 ' 15.6 15.8 23.2 ---0.20 0.588 30 464 E 4 31 16 21 24 l 15.6 15.8 23.2 ---0.20 0.588 30 465 A 1 ND ND ND ND l 12.6 13.2 18.5 6 0.20 0.588 40 ... 465

  • 2 ND ND ND ND l 12.6 13.2 18.5 6 0.20 0.588 40 11. 465 A 3 ND ND ND ND l 12.6 13.2 18.5 6 0.20 0.588 40 465 A 4 ND ND ND ND i 12.6 13.2 18.5 6 0.20 0.588 40 "** 465 B -1 52 36 45 6
  • 10.3 11.0 18.8 10 0.20 0.588 40 465 B 2 60 48 45 54
  • 10.3 11.0 18.8 10 0.20 0.588 40 465 B 3 30 34 24 28
  • 10.3 11.0 18.8 10 0.20 0.588 40 465 B 4 20 27 36 41
  • 10.3 11.0 18.8 10 0.20 0.588 40 465 c 1 ND ND ND ND l 11.5 13.0 19.5 16 0.20 0.588 40 465 ,.. ., 8 ND ND 12 l 11.5 13.0 19.5 16 0.20 0.588 40 I.. i. 465 c 3 ND ND ND ND l 11.5 13.0 19.5 16 0.20 0.588 40 465 r 4 ND ND ND ND l 11. 5 13.0 19.5 16 0.20 0.588 40 " 465 !\ 1 7 9 14 4 l 11.7 12.5 19.0 21 0.20 0.588 40 l! 465 D 2 4 ND ND 6 l 11. 7 12.5 19.0 21 0.20 0.588 40 465 j) 3 NGD N!lD NGD l 11.7 12.5 19.0 21 0.20 0.588 40 . 465 D 4 NGD ND tlD NGD l 11. 7 12.5 19.0 21 . 0.20 0.588 40 465 E 1 25 NGD 22 NGD l 12.5 13.5 23.3 4 0.20 0.588 40 465 E 2 8 ND ND 8
  • 12.5 13.5 23.3 4 0.20 0.588 40 465 3 NDD 25 22 25 i 12.5 13.5 23.3 4 0.20 0.588 40 465 E 4 46 NGD ND 60 l 12.5 13.5 23.3 4 0.20 0.588 40 466 D 1 ND 7 29 33 l 16.7 16.9 20.1 ---0.20 0.588 20 ... 466 D 2 1 ND 18 2 l 16.7 16.9 20.1 ---0.20 0.588 20 466 D ND ND 7 3 l 16.7 16.9 20.1 ---0.20 0.588 20 466 D . ND ND ND ND
  • 16.7 16.9 20.1 ---0.20 0.588 20 466 E f NGD NGD NGD ' 17.3 17.6 21.0 ---0.20 O.SBB 20 ... 466 E 2 ND ND ND ND l 17.3 17.6 21.0 ---0.20 0.588 20 E .,. NGD 11 .,. 16
  • 17.3 17.6 21.0 ---0.20 0.588 20 _, ,; 466 .. 4 16 NGD ND ND f 17.3 17.6 21.0 ---0.20 0.588 20 467 A 1 17 13 13 20 l 36.2 36.6 46.2 6 0.20 0.588 50 467 A 2 35 25 28 25
  • 36.2 36.6 46.2 6 0.20 0.588 50 A 3 23 22 24 23 l 36.2 36.6 46.2 6 0.20 0.588 *** 467 A 4 13 17 14 16 l 36.2 36.6 46.2 6 0.20 0.588 50 467 !) 1 14 10 12 14 ' 38.6 39.7 60.4 10 0.20 0.588 *' .

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  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECTS AI MAI MP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

467 B 2 33 32 33 31 l 38.6 39.7 60.4 10 0.20 0.588 50 467 B .,. 27 29 27 29 l 38.6 39.7 60.4 10 0.20 0.588 50 " 467 B 4 23 24 23 24 l 38.6 39.7 10 0.20 o. 588 50 467 c 1 25 24 25 26 ** 38.1 38.6 57.8 4 0.20 0.588 50 467 c ,, 26 24 26 26 l 38.1 38.6 57.8 4 0.20 0.588 50 ,/. 467 c 3 28 29 29 29

  • 38.1 38.6 57.8 4 0.20 0.588 50 467 c 4 29 29 31 29 * . 38.1 38.6 57.8 4 0.20 0.588 50 467 D 1 25 24 26 28
  • 40.6 41.1 54.9 21 0.20 0.588 50 467 D 2 21 22 23 22 l 40.6 41.1 54.9 21 0.20 0.588 50 467 0 3 31 34 36 34
  • 40.6 41.1 54.9 21 0.20 0.588 Sb 467 D 4 31 31 31 29 l 40.6 41.1 54.9 21 0.20 0.588 50 467 E 1 30 33 32 30
  • 43.0 43.4 58.4 15 0.20 0.588 50 467 E ,, 32 28 32 33 l 43.0 43.4 58.4 15 0.20 0.588 50 ,/. 467 E 36 35 33 35 l 43.0 43.4 58.4 15 0.20 0.588 so .,, 467 E 4 36 36 36 35 l 43.0 43.4 58.4 15 0.20 0.588 50 468 0 1 40 39 40 40
  • 43.6 43.8 50.6 ---0.20 0.588 60 468 D 2 32 32 38 l 43.6 43.8 50.6 ---0.20 0.588 60 .,,.,, 468 u 3 42 37 36 38
  • 43.6 43.8 50.6 ---0.20 0.588 60 468 D 4 44 42 41 41 : ... ' 43.8 5(1.6 ---0.20 0.588 60 o.r ... ,,o 468 E 1 38 38 38 38
  • 45.2 45.3 50.4 ---0.20 0.588 60 468 E ,, 34 33 35 35 l 45.2 45.3

---0.20 0.588 60 ,/. 468 E 3 37 38 39 40

  • 45.2 45.3 50.4 ---0.20 0.588 60 468 E 4 36 36 37 37 i 45.2 45.3 50.4 ---0.20 0.588 60 469 D 1 18 9 11 18 i 17.2 18.1 24.2 ---0.20 0.588 80 469 D ,, 15 18 20 15 l 17.2 18.1 24.2 ---0.20 0.588 80 ce ,/. 469 D 3 16 16 17 21 i 17.2 18.1 24.2 ---0.20 0.588 80 469 D 4 18 18 20 16
  • 17.2 18.1 24.2 ---0.20 0.588 80 469 E 1 NGD . NQD NGD NGD
  • 19.3 19.9 27.2 ---0.20 0.588 80 469 E 2 ND ND ND ND
  • 19.3 19.9 27.2 ---0.20 0.588 80 469 E NQD NGD 5 NGD l 19.3 19.9 27.2 ---0.20 0.588 0.0 *J 469 E 4 NGD NGD l 19.3 19.9 27.2 ---0.20 0.588 BO 470 D 1 36 36 36 38 l 43.4 44.0 57.0 ---0.20 o.588 100 470 D ') 36 38 36 36 l 43.4 44.0 57.0 ---0.20 0.588 100 .. 470 D .,. 40 35 34 34 ** 43.4 44.0 57.0 ---0.20 0.588 100 " 470 D 4 37 39 39 39 l 43.4 44.0 57.0 ---0.20 0.588 100 470 E 1 46 47 49 49
  • 54.9 55.8 66.3 ---0.20 0.588 100 470 E ') 44 44 44 44 ' 54.9 55.8 66.3 ---0.20 0.588 100 .. 470 E .. 50 48 47 49 i 54.9 55.B 66.3 ---0.20 0.588 100 470 E 4 51 52 51 51 l 54.9 55.B 66.3 ---0.20 0.588 100 471 D 1 15 12 20 20
  • 11.5 11.9 18.8 ---0.20 0.588 30 471 D ,, 15 21 18 20 ' 11. 5 11.9 18.8 ---0.20 0.588 30 ,/. 471 c .. 1 1 10 4 i 11.5 11.9 18.8 ---0.20 0.588 30 " 471 D 4 16 15 24 31 ' 11.5 11.9 18.8 ---0.20 0.588 30 m E 1 30 42 40 20
  • 12.7 14.4 20.1 ---0.20 0.588 30 471 E 2 28 20 23 28 l 12.7 14.4 20.1 ---0.20 0.588 30 471 E 3 15 24 24 23
  • 12.7 14.4 20.1 ---0.20 0.588 30 471 E 4 39 29 29 31 l 12.7 14.4 20.1 ---0.20 0.588 30 472 D 1 ND ND ND ND * . 1.1 2.2 7.6 ---0.20 0.588 20 472 D 2 ND ND ND ' 1.1 2.2 7.6 ---. 0.20 0.588 20 472 D 3 ND ND ND ND ' 1.1 2.2 7.6 ---0.20 0.588 20 472 D 4 ND ND ND ND ' 1.1 ,, ? .i. ** 7.6 ---0.20 0.588 20 ,. 472 E 1 ND NGD ND ND
  • 0.9 1.6 7.6 ---0.20 o.588 20 472 .. 2 ND ND* tlD tlD l 0.9 1.6 7.6 ---0.20 0.588 20 Co '

Page 43 of 136 !SADAT A. 540

  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI llAI MP AS MAS DENT AXIAL CIRC DEPTH 4"" E ., ND ND ND ND s 0.9 1.6 7.6 0.20 0.588 20 ... ,) 4""" /;. E 4 tlD ND ND ND t 0.9 1.6 7.6 0.20 0.588 20 .iv D 25 -24 22 24 t 34.0 36.7 41.8 0.20 0.588 40 473 D ., 15 15 15 15 t 34.0 36.7 41.8 0.20 0.588 40 L J .:i D 3 22 27 27 22
  • 34.0 36.7 41.8 0.20 0.588 40 473 D 4 25 25 25 25 t 34.0 36.7 41.8 0.20 0.588 40 473 E 1 41 40 39 40 ' 30.7 33.4 38.5 0.20 0.588 40 473 E 2 41 41 41 41 t 30.7 33.4 38.5 0.20 0.588 40 473 E 3 44 24 24 26 30.7 33.4 3B.5 0.20 0.588 40 473 E 4 44 45 46 44 t 30.7 33.4 38.5 0.20 0.588 40 474 D 1 NDD NDD NDD NDD t 17.8 18.6 26.9 0.20 0.58B 50 474 D 2 ND ND ND ND l 17.8 18.6 26.9 0.20 0.588 50 474 D 3 NDD 19 i"s 15 l 17.B lB.6 26.9 0.20 O.SBB 50 474 D 4 NQD NDD NDD NDD 17.8 18.6 26.9 0.20 0.588 50 474 E 20 24 26 17 23.2 24.0 39.9 0.20 0.588 50 474 E ., 21 21 24 28 23.2 24.0 39.9 0.20 0.588 50 '" 474 t ,. 16 14 17 16 l ,,.,. I'\ 24.0 39.9 0.20 0.588 50 ,. ,/..,:J,_J,.

474 E

  • 42 1'7 43 .,., t "1"f,, 24.0 39.9 0.20 0.588 50 ..,, ,),> i..*.11 ... 475 D 33 72 NGD 60 i 11.5 1L7 17.5 0.20 0.588 60 475 D ., 4 21 20 21 t 11.5 11. 7 17.5 0.20 0.588 60 i. 475 D ., 8 17 11 14 l 11.5 11. 7 17.5 0.20 0.588 60 . ,) 475 D 4 39 NQD NDD NQD t 11.5 11. 7 17.5 0.20 0.588 60 475 E 1 NOD 79 96 76 l 13.7 13.8 1B.7 0.20 0.5B8 60 475 E 2 ND ND ND ND
  • 13.7 13.8 18.7 0.20 0.5BB 60
  • 475 E 3 NDD 7 7 7 l 13.7 13.8 18.7 0.20 0.5B8 60 475 E 4 ND ND ND ND l 13.7 13.8 18.7 0.20 0.588 60 476 D 1 17 12 12 11 g 1B.6 19.1 25.5 0.20 0.588 80 476 D 2 13 8 13 13
  • 18.6 19.1 25.5 0.20 . O.SBB 80 .. 476 D ,. 19 11 18 16
  • 18.6 19 .1 25.5 0.20 0.588 BO " 476 D 4 20 21 15 20 t 1B.6 19.1 25.5 0.20 0.588 BO 476 E 1 21 24 22 22 i 24.6 26.2 38.6 0.20 0.588 80 476 c: 2 20 18 lB 20 t 24.6 26.2 38.6 0.20 0.58B 80 ... 476 E ., 21 23 25 23 t 24.6 26.2 3B.6 0.20 0. 588 BO *) 476 E 4 'lC 39 21 25 t 24.6 26.2 38.6 0.20 0.5BB BO 477 D 70 67 68 67
  • 77.B 78.1 84.1 0.20 0.588 100 477 D 2 67 . 69 69 67
  • 77.8 78.1 84.1 0.20 0.588 100 477 D 3 71 69 69 68
  • 77.8 7B.1 84.1 0.20 0.588 100 477 D 4 67 67 68 70
  • 77.8 78.1 84.1 0.20 0.588 100 477 E 1 71 71 70 71 i 79.2 B0.6 87.5 0.20 0.5BB 100 477 E 2 69 71 70 69 l 79.2 80.6 87.S 0.20 0.588 100 477 E 3 73 72 70 72
  • 79.2 B0.6 87.5 0.20 0.588 100 477 E 4 70 6B 70 70 l 79.2 80.6 87.5 0.20 0.588 100 480 D 1 36 34 34 35
  • 0.20 1. 763 40 480 D ., 25 25 24 24
  • 0.20 1. 763 40 L 480 D ,. ,. 37 32 34 37
  • 0.20 1. 763 40 480 n . 27 27 27 28
  • 0.20 1. 763 40 480 E 1 39 39 39 39
  • 0.20 2.355 40 480 E 2 36 38 35 35 t 0.20 2.355 40 480 E 7 41 38 37 37 i 0.20 2.355 40 .;. 480 E 4 37 37 37 39
  • 0.20 2.355 40 481 D ' 3B 38 36 38
  • 0.20 . 0.460 40 ...
  • 481 D ., 33 33 33 33 a 0.20 0.460 40 I.. 481 D ., 41 38 39 40 t 0.20 0.460 40 .;.

Page 44 of 136 IGADATA.540

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481 D 4 35 36 41

  • 0.20 0.460 40 .,,, 481 E l 48 46 48 49
  • 0.20 0.588 40 481 E 2 48 48 48 45
  • 0.20 0.588 40 481 E 3 C1' ,,., 43 42 42
  • 0.20 0.588 40 481 E ! 49 50 51 52 i 0.20 0.588 40 482 D ND NUD ND ND
  • 0.20 0.070 40 482 D ND ND ND ND
  • 0.20 0.070 40 i. 482 D .. ND ND ND ND
  • 0.20 0.070 40 .j 482 D .. ND ND ND ND
  • 0.20 0.070 40 't 482 E 85 55 92 47
  • 0.20 0.130 40 482 E 2 ND ND ND ND
  • 0.20 0.130 40 482 E 3 ND ND ND ND
  • 0.20 0.1.30 40 482 E ' ND ND ND ND
  • 0.20 0.130 40 't 483 n 1i 17 17 17
  • 0.20 0.588 40 II 483 n 2 15 13 13 16
  • 0.20 0.588 40 II 483 D .., 22 19 16 19
  • 0.20 0.588 40 483 D 20 21 18 21 i 0.20 0.588 40 483 E NGD 9 NUD NUD
  • 0.30 0.588 40 493 -2 ND ND ND ND t 0.30 0.588 40 483 E ., 4 21 5 16 i 0.30 0.588 40 An7 '1'0.J E 4 NGD NGD N!lD NDD l 0.30 0.588 40 .... '. \

Page 45 of 136

  • CIRDATA.540 ID DEF PRO . ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC . AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

205 A 1 ND ND* ND ND * --0.375 .008 0.049 100 205 A 2 ND ND ND ND * --0.375 .008 0.049 100 205 A 3 ND ND INC ND * --0.375 .008 0.049 100 205 A 4 ND ND ND ND * --0.375 .008 0.049 100 205 B 1 91 89 90 91 * --0.375 .007. 0.028 60 205 B 2 89 91 89 89 t --0.375 .007 0.028 60 205 B ;:i 92 89 88 88 * --0.375 .007 0.028 60 205 B 4 88 88 89 88 * --0.375 .007 0.028 60 205 c 1 62 62 63 61 t --0.375 .007 0.038 80 205 c 2 66 69 64 68 * --0.375 .007 0.038 BO 205 c 3 59 61 64 56 * --0.375 .007 0.038 80 205 c 4 *72 68 72 64 * --0.375 .007 0.038 80 205 D 1 61 63 61 61 * --0.375 .006 0.019 40 205 D 2 62 62 58 63 i --0.375 .006 0.019 40 205 D 3 57 59 62 58 * --0.375 .006 0.019 40 205 D 4 53 50 60 58 * --0.375 .006 0,1)19 40 205 E 1 ND 42 64 ND * --0.375 .006 0.022 45 205 E 2 ND , NOD ND ND * --0.375 .006 0.022 45 205 E 3 ND ND ND ND * --0.375 .006 0.022 45 205 E 4 ND ND ND ND * --0.375 .006 0.022 45 205 F 1 ND ND ND ND * --0.375 .006 0.010 20 205 F 2 ND ND ND ND * --0.375 .006 0.010 20 205 F 3 ND ND ND ND * --0.375 .006 ' 0.010 20 205 F 4 ND ND ND ND ** --0.375 .006 0.010 20 ... 209 A 1 37 ND ND 46 * --0.375 .006 0.018 38 ,. \ 209 A 2 NOD NOD NOD ND * --o.:m .006 0.018 38 209 A 3

  • 47 ND ND * --0.375 .006 0.018 38 209 A 4 41 36 53 35 * --0.375 .006 0.018 38 209 B 1 ND ND ND ND
  • 10 0.375 .006 0.020 42 209 B 2 NOD NOD NOD ND
  • 10 0.375 .006 0.020 42 209 B 3 ND ND ND ND
  • 10 0.375 .006 0.020 42 209 B 4 NOD NOD ND ND
  • 10 0.375 .006 0.020 42 209 c 1 ND 40 NOD ND
  • 9 0.375 .006 0.017 35 209 c 2 NQD NQD ND ND
  • 9 0.375 .006 0.017 35 209 c 3 ND ND ND ND .
  • 9 0.375 .006 0.017 35 209 c 4 ND ND ND ND
  • 9 0.375 .006 0.017 35 209 D 1 ND ND ND ND .
  • 6 0.375 .006 0.018 38 209 D 2 ND NOD NOD ND
  • 6 0.375 .006 0.018 38 209 D 3 ND ND ND ND
  • 6 0.375 .006 0.018 38 209 D 4 ND ND ND ND
  • 6 o.:m .006 0.018 38 209 E 1 ND ND ND ND
  • 4 0.375 .006 0.020 42 209 E 2 ND ND NOD ND
  • 4 0.375 .006 0.020 42 209 E 3 ND ND ND ND
  • 4 0.375 .006 0.020 42 209 E 4 ND ND ND ND.
  • 4 0.375 .006 0.020 42 209 F 1 ND ND ND 39
  • 2 0.375 .006 0.017 35 209 F 3 ND ND * *
  • 2 0.375 .006 0.017 35 209 F 4 ND ND ND ND
  • 2 0.375 .006 0.017 35 210 A 1 54 55 57 59 * --0.375 .006 0.025 52 210 A 2 57 54 56 57 * --0.375 .006 0.025 52 210 A 3 56 55 60 60 * --0.375 .006 0.025 52
  • 210 A 4 74 50 50 50 * --0.375 .006 0.025 52 210 B 1 ND ND 62 NQD
  • 10 0.375 .006 0.025 52 210 B 2 NQD ND NOD ND
  • 10 0.375 .006 0.025 52

46 of 136

  • CIRDATA. 540 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

210 B 3 ND ND 7 15

  • 10 0.375 .006 0.025 52 210 B 4 NQD ND ND
  • 10 0.375 .006 0.025 52 210 c 1 31. 33 47 25
  • B 0.375 .006 0.025 52 210 c 2 NQD ND ND ND
  • B 0.375 .006 0.025 52 210 c 3 ND NGD NGD NGD
  • B 0.375 .006 0.025 52 210 c 4 ND 82 82 ND
  • 8 0.375 .006 0.025 52 210 D 1 ND ND 32 35 t 6 0.375 .006 0.025 52 210 0 2 NGD ND ND ND t 6 0.375 .006 0.025 52 210 D 3 NGD 35 16 NGD
  • 6 0.375 .006 0.025 52 210 D 4 ND 79 71 72
  • 6 0.375 .006 0.025 52 210 E 1 ND ND ND 37 t 4 0.375 .006 0.026 54 210 E 2 47 48 43 ND t 4 0.375 .006 0.026 54 210 E 3 NGD 18 NGD NGD l 4 0.375 .006 0.026 54 210 E 4 ND ND ND ND t 4 0.375 .006 0.026 54 210 F 1 NGD NGD 44 41 t 2 0.375 .006 0.027 56 210 F 2 l t
  • 48 t 2 0.375 .006 0.027 56 210 F 3 62 NGD ND 56 l 2 0.375 .006 0.027 56 210 F 4 56 59 50 54 l ., 0.375 .006 0.027 56 i. 211 A 1 72 72 72 72 * --0.375 .006 0.030 63 211 A 2 74 73 71 71 t --0.375 .006 0.030 63 211 A 3 71 70 76 71 * --0.375 .006 0.030 63 211 A 4 73 70 70 70 * --0.375 .006 0.030 63 211 B 1 ND ND ND 47
  • 10 0.375 .006 0.030 63 211 B 2 ND ND NGD ND l 10 0.375 .006 0.030 63 :: .* 211 B 3 ND ND ND ND t 10 0.375 .006 0.030 63 211 B 4 NGO ND ND ND t 10 0.375 .006 0.030 63 211 c 1 ND ND NGD 41
  • 8 0.375 .006 0.030 63 211 c 2 ND ND ND ND t 8 0.375 .006 0.030 63 211 c 3 ND ND ND ND t B 0.375 .006 0.030 63 211 c 4 NGD ND ND ND t B 0.375 .006 0.030 63 211 D 1 ND ND ND ND
  • 6 0.375 .006 0.032 67 211 D 'l ND ND ND ND
  • 6 0.375 .006 0.032 67 4 211 D 3 ND NOD ND NGD
  • 6 0.375 .006 0.032 67 211 D 4 ND ND ND ND
  • 6 0.375 .* 006 0.032 67 211 E 1 ND ND ND 27
  • 4 0.37-5 .006 0.031 65 211 E 2 63 58 ND NGO
  • 4 0.375 .006 0.031 65 211 E 3 63 82 73 82 t 4 0.375 .006 0.031 65 211 E 4 ND ND ND ND t 4 0.375 .006 0.031 65 211 F 1 ND ND ND 78 * ., 0.375 .006 0.034 71 " 211 F 'l l l 67 79
  • 3 0.375 .006 0.034 71 4 211 F 3 ND 82 NGD 82
  • 3 0.375 .006 0.034 71 211 F 4 ND ND ND NGO t 3 0.375 .006 0.034 71 212 A 1 94 93 93 93 l --0.375 .006 0.049 100 212 A 2 94 94 94 93 t --0.375 .006 0.049 100 212 A 3 94 93 93 91 l --0.375 .006 0.049 100 212 A 4 94 91 93 93 l --0.375 .006 0.049 100 212 B 1 62 61 59 61 l 11 0.375 .006 0.049 100 212 B 2 57 56 59 58 l 11 0.375 .006 0.049 100 212 B 3 69 72 72 72
  • 11 0.375 .006 0.049 100 212 B 4 77 74 75 79
  • 11 0.375 .006 0.049 100
  • 212 c 1 NOD 29 22 23 l 8 0.375 .006 0.(149 100 212 c 2 82 82 82 14
  • B 0.375 .006 0.049 100 212 c 3 56 NGD NOD NGD l 8 0.3i5 .006 0.049 100

**Page 47 of 136 *--* ----*** .... CIRDATA.540

    • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

212 c 4 NflD 82 82 82

  • 8 0.375 .006 0.049 100 212 D 1 ND ND 28 ND t 6 0.375 .006 0.049 100 212 D 2 82 80 79 81
  • 6 0.375 .006 0.049 100 212 D 3 NflD 12 NflD NOD
  • 6 0.375 .006 0.049 100 212 D 4 82 82 82 82 t 6 0.375 .006 0.049 100 212 E 1 ND ND NOD ND t 4 0.375 .006 0.049 100 212 E 2 82 82 82 82 t 4 0.375 .006 0.049 100 212 E 3 NflD NOD 18 NOD
  • 4 0.375 .006 0.049 100 212 E 4 82 82 82 82
  • 4 0.375 .006 0.049 100 212 F 1 ND 82 ND BO t 2 0.375 .006 0.049 100 212 F 2 78 BO 73 72
  • 2 0.375 .006 0.049 100 212 F 3 NflD NflD NOD NOD
  • 2 0.375 .006 0.049 100 212 F 4 ND ND ND ND t 2 0.375 .006 0.049 100 v .....
  • Page 48 of 136 WASDATA.4C4
  • ID DEF PRO ECT1 . ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

168 A 76 69 47 38

  • 0.110. 0.110 0.029 60 168 A 2 81 79 88 89
  • 0.110 0.110 0.029 60 168 A 3 83 81 79 82
  • 0.110 0.110 0.029 60 168 A 4 61 64 69 68
  • 0.110 0.110 0.029 60 168 B 1 ND NGD ND 4B
  • 2 0.110 0.110 0.029 60 168 B 2 21 51 ND ND
  • 2 0.110 0.110 0.029 60 16B B 3 73 75 71 72
  • 2 0.110 0.110 0.029 60 168 B 4 52 36 55 53
  • 2 0.110 0.110 0.029 60 168 c 1
  • NGD 37 ND 40 l 4 0.110 0.110 0.030 63 168 c 2 ND 37 25 ND l 4 0.110 0.110 0.030 63 168 c 3 69 75 40 73 l 4 0.110 0.110 0.030 63 168 c 4 47 34 5 25 l 4 0.110 0.110 0.030 63 168 D 1 42 22 ND 33 l 6 0.110 0.110 0;030 63 168 D 2 ND 36 72 ND
  • 6 0,110 0.110 0.030 63 168 D 3 70 69 68 68 l b 0.110 0.110 0.030 63 168 D 4 31 14 NGD 17 l 6 0.110 0.110 0.030 . 63 168 E 1 NGD 20 ND 33 B 0.110 0.110 0.030 63 168 E 2 ND 26 32 ND 8 0.110 0.110 0.030 63 168 E 3 54 56 54 41 8 0.110 0.110 0.03(1 63 168 E 4 35 7 28 NGD
  • 8 0.110 0.110 0.030 . 63 16B F 1 NGD 11 ND 20 l 10 0.110 0.110 0.028 58 168 F 2 ND 44 51 ND
  • 10 0.110 0.110 0.028 58 16B F 3 58 52 63 50 . l 10 0.110 0.110 0.028 58 168 F 4 21 24 27 N@ l 10 0.110 0.110 0.02B 58 169 A 1 63 66 63 74
  • 0.109 0.109 0.028 5B 169 A 2 73 71 69 71
  • 0.109 0.109 0.028 58 169 A 3 BO 74 BO 79 l 0.109 9.109 0.028 SB 169 A 4 79 79 79 79
  • 0.109 0.109 0.028 58 169 B 1 87 B6 86 97
  • 2 0.109 0.109 0.029 60 169 B 2 90 99 97 98 l 2 0.109 0.109 0.029 60 169 B 3 NGD NGD 98 99 l . 2 0.109 0.109 0.029 60 169 B 4 94 95 94 96
  • 2 0.109 0.109 0.029 60 169 c 1 91 94 89 BB l 4 0.109 0.109 0.028 5B 169 c 2 NQD NGD 98 94
  • 4 0.109 0.109 0.028 58 169 c ,) NQD NQD NGD NGD
  • 4 0.109 0.109 0.028 58 169 c 4 NGD NGD NGD NGD
  • 4 0.109 0.109 0.028 58 169 D 1 NGD 93 88 87
  • 6 0.109 0.109 0.029 60 169 D 2 NGD 69 98 89
  • 6 0.109 0.109 0.029 60 169 D 3 NGD 67 NGD NGD ' 6 0.109 0.109 0.029 60 169 D 4 62 75 62 55
  • 6 0.109 0.109 0.029 60 169 E 1 NGD B7 84 NOD l 7 0.109 0.109 0.02B 58 169 E 2 93 NOG 96 87 l 7 0.109 0.109 0.028 58 169 E 3 NOD NGD NOD 99 l 7 0.109 0.109 0.028 5B 169 E 4 NOD NOD NGO NOD
  • 7 0.109 0.109 0.028 58 169 F 1 NGD NGO NGD NGD
  • 10 0.109 0.109 0.028 5B 169 F 2 ND 74 75 77 l 10 0.109 0.109 0.028 58 169 F 3 ND ND NOD 98
  • 10 0.109 0.109 0.028 58 169 F 4 67 70 56 66
  • 10 0.109 0.109 0.028 58 170 A 1 72 70 .68 75
  • 0.109 0.109 0.029 59 170 A 2 76 61 97 70
  • 0.109 0.109 0.029 59 i. 170 A 3 68 72 75 76
  • 0.109 0.109 0.029 59 170 A 4 60 59 69 71
  • 0.109 0.109 0.029 59 170 B 1 75 72 70 70
  • 2 0.109 0.109 0.029 59 Page 49 of 136 WASDATA.4C4
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH :.:DEPTH -----------------------------------------------------------------------------------------------

170 B 2 71 57 75 78

  • 2 0.109 0.109 0.029 59 170 B 3 87 78 80 78 l 2 0.109 0.109 0.029 59 170 B 4 77 78 77 74
  • 2 0.109 0.109 0.029 59 170 c 1 64 68 72 70
  • 4 0.109 0.109 0.029 59 170 c 2 81 75 81 67
  • 4 0.109 0.109 0.029 59 170 c 3 . TS 74 78 76
  • 4 0.109 0.109 0.029 59 170 c 4 . 78 79 71 76
  • 4 0.109 0.109 0.029 59 170 D 1 NGD 69 67 80
  • 6 0.109 0.109 0.029 59 170 D 2 87 77 80 65 l 6 0.109 0.109 0.029 . 59 170 n 3 79 80 77 77
  • 6 0.109 0.109 0.029 59 170 D 4 78 77 78 80 l 6 0.109 0.109 0.029 59 170 E 1 58 58 67 62 t 8 0.109 0.109 0.029 59 170 E 2 81 78 77 78 t 8 0.109 0.109 0.029 59 170 E 3 81 80 84 81
  • 8 0.109 0.109 0.029 59 170 E 4 74 74 77 69 l 8 0.109 0 *. 109 0.029 59 170 F 1 69 65 53 71 t 10 0.109 0.109 0.029 59 170 F 2 67 71 72 71 l 10 0.109 0.109 0.029 59 170 F 3 78 75 77 81 10 0.109 0.109 0.029 59 170 F 4 77 77 78 76 l 10 0.109 0.109 0.029 59 178 A 1 100 99 99 99 l 0.050 Q.050 0.049 100 178 A 2 99 94 99 94 l 0.050 0.050 0.049 100 178 A 3 93 92 *93 BB
  • 0.050 0.050 0.049 100 178 A 4--98 100 99 99
  • 0.050 0.050 0.049 100 178 B 1 72 73 81 74
  • 0.075 0.075 0.037 BO
  • 178 B 2 93 94 99 94
  • 0.075 0.075 o.o:n 80 178 B 3 94 92 92 99
  • 0.075 0.075 0.037 BO 178 B 4 81 81 79 84 l 0.075 0.075 0.037 80 178 c 1 47 55 67 45 t 0.110 0.110 0.027 59 178 c 2 76 87 87 76 t 0.110 0.110 0.027 59 . 178 c 3 79 78 76 75
  • 0.110 0.110 0.027 59 178 c 4. 61 69 58 60
  • 0.110 0.110 0.027 59 178 D 1 32 34 39 40
  • 0.190 0.190 0.018 39 178 D 2 45 76 37 35 t 0.190 0.190 0.018 39 178 D 3 62 60 61 70 t 0.190 0.190 0.018 39 178 D 4 31 31 25 30 t. 0.190 0.190 0.018 39 178 E 1 33 27 30 28
  • 0.190 0.190 0.009 20 178 E 2 ND 49 19 ND t 0.190 0.190 0.009 20 178 E 3 21 28 32 32
  • 0.190 0.190 0.009 20 178 E 4 24 18 24 32 ' 0.190 0.190 0.009 20 302 A 1 79 83 84 86 t 2 0.196 .688 0.038 78 302 . A 2 83 88 88 89 l 2 0.196 .688 0.038 78 302 A 3 82 84 85 85 t 2 0.196 .688 0.038 78 302 A 4 85 85 85 84
  • 2 0.196 .688 0.038 78 302 .B 1 69 78 65 67 l 2 0.196 .750 0.030 61 302 B 2 71 72 76 76 l 2 0.196 .750 0.030 61 302 B 3 90 71 72 77
  • 2 0.196 .750 0.030 61 302 B 4 78 79 77 77
  • 2 0.196 .750 0.030 bl 302 c 1 NGD 56 50 48 l 2 0.196 1.500 0.017 35 302 c 2 76 47 45 48
  • 2 0.196 1.500 0.017 35 302 c 3 ND NGD NllD 54 l 2 0.196 1.500 0.017 35 /, 302 !' .4 45 57 55 56 l 2 0.19/i 1.500 0.017 35 "' *** 302 D 1 ND ND 14 ND l 2 0.196 .688 0.010 20 302 D 2 ND ND 10 11 l 2 0.196 .688 0.010 20 Page *50 of 136 WASDATA.4C4

.,. ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH IDEPTH ----------------------------------------------------------------------------------------------- 302 D 3 ND ND ND ND t 2 0.196 .688 0.010 20 302 D 4 21 5 5 N!lD

  • 2 0.196 .688 0.010 20 303 A 1 79 82 81 85 t 2 0.588 .813 0.036 73 303 A ., BB 85 85 84
  • 2 0.588 .813 0.036 73 ... 303 A 3 90 87 86 I 90 t 2 0.588 .813 0.036 73 303 A 4 84 85 85 84 t 2 0.588 .813 0.036 73 303 B 1 61 53 59 60 t 2 0.588 .688 0.028 57 303 B ., 61 55 64 67 t 2 0.588 .688 0.028 57 ... 303 B 3 70 72 70 69
  • 2 0.588 .688 0.028 57 303 B 4 71 71 71 71 t 2 0.588 .688 0.028 57 303 c 1 38 41 46 45 ' 2 0.588 .688 0.018 37 303 c 2 41 44 38 40 t 2 0.588 .688 o.of0 37 303 c 3 56 47 45 55 t 2 . 0.588 .688 0.018 37 303 c 4 48 50 50 50 g 2 0.588 .688 0.018 37 303 D 1 44 34 33 33
  • 2 0.588 .813 0.015 31 303 D ., 28 38 33 21 t 2 0.588 .813 0.015 31 .. 303 D 3 40 38 29 43
  • 2 0.588 .813 0.015 31 31)3 D 4 36 36 38 44 t 2 0.588 .813 0.015 31 306 A 1 77 91 85 76
  • 4 0.196 .688 0.040 82 306 A ,, 81 82 84 84
  • 4 0.196 .688 0.040 82 ;. 306 A 3 85 82 89 83 t 4 0.196 .688 0.040 82 306 A 4 79 83 86 81 t 4 0.196 --.-b88 0.040 82 306 B 1 60 58 67 60 t 4 0.196 .750 0.029 59 306 8 2 68 68 66 68 t 4 0.196 .750 0.029 59 ... 306 B 3 74 70 78 71 t . 4 0.196 .750 0.029 59 306 8 4 72 70 76 73
  • 4 0.196 .750 0.029 59 306 c 1 N!lD 49 36 38 t 4 0.196 1.063 0.018 37 306 c 2 54 41 32 30
  • 4 0.196 1.063 0.018 37 306 c 3 ND 44 51 35 t 4 0.196 1.063" 0.018 37 306 c 4 44 . 40 38 40 t 4 0.196 1.063 0.018 37 306 D 1 ND ND ND ND t 4 0.196 .563 0.011 22 306 D 2 ND ND ND ND t 4 0.196 .563 0.011 22 306 D ,) ND ND ND ND t 4 0.196 .563 0.011 22 306 D 4 ND N!lD N!lD N!lD t 4 0.196 .563 0.011 22 307 A 1 78 73 82 74
  • 4 0.588 .813 0.035 71 307 A 2 88 79 83 79 t 4 0.588 .813 0.035 71 307 A 3 85 84 86 85 a 4 0.588 .813 0.035 71 307 A
  • 4 Bl 82 81-83 t 4 0.588 .813 0.035 71 307 B 1 60 60 60 56 t 4 0.588 .750 0.028 57 307 B 2 62 72 67 48 t 4 0.588 .750 0.028 57 307 B 3. 65 79 70 74 t 4 0.588 .750 0.028 57 307 B 4 70 69 71 71 a 4 0.588 .750 0.028 57 307 c 1 so 45 46 37 t 4 0.588 .750 0.019 39 307 c 2 42 47 45 41 t 4 0.588 .750 0.019 39 307 c 3 49 52 50 58 t 4 0.588. .750 0.019 39 307 c 4 41 46 43 44
  • 4 0.588
  • 750 0.019 39 307 D 1 31 27 27 33 t 4 0.588 .813 0.015 31 307 D ., 37 20 25 34
  • 4 0.588 .813 0.015 31 ... 307 D 3 36 22 28 24
  • 4 0.588 .-813 0.015 31 307 D 4 35 31 35 29 t 4 0.588 .813 0.015 31 310 A 1 80 84 94 85 .t B 0.196 .813 0.039 BO ** 310 A 2 86 90 90 89 t B 0.196 .813 0.039 80 310 A 3 97 86 84 86 t 8 0.196 .813 0.039 80 Page 51 of 136 WASDATA.4C4
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

310 A

  • 86 86 86 85
  • 8 0.196 .813 0.039 BO 'I 310 B 1 64 62 62 65
  • 8 0.196 .750 0.029 59 310 B 2 76 71 75 71
  • 8 0.196 .750 o*.029 59 310 B 3 93 73 60 74
  • 8 0.196 .750 0.029 59 310 B 4 73 72 74 73
  • B 0.196 .750 0.029 59 310 c 1 NQD 42 46 46
  • B 0.196 .750 0.019 39 310 c 2 52 57 49 45 t 8 0.196 .750 0.019 39 310 c 3 52 43 NGD 50
  • 8 0.196 .750 0.019 39 310 c 4 58 58 56 54
  • 8 0.196 . 750 0.019 39 310 D 1 ND ND ND ND
  • 8 0.196 .688 0.010 20 310 D 2 ND ND ND ND
  • 8 0.196 .688 0.010 20 310 D 3 ND ND ND ND
  • 8 0.196 .688 0.010 20 310 D 4 16 ND ND NQD
  • 8 0.196 .688 0.010 20 311 A 1 83 78 83 81 ! 8 0.588 .750 0.038 70 "' 311 A 2 89 80 67 79
  • 8 0.588 .750 0.038 78 311 A 3 82 86 84 91
  • B 0.588 .750 0.038 78 311 A 4 83 83 83 84
  • 8 0.588 .750 0.038 78 311 B 1 56 b3 65 b6
  • a 0.588 .750 0.030 61 311 B ... 86 65 76 79
  • B 0.588 .750 0.030 61 i. 311 B 3 85 81 73 81
  • 8 0.588 .750 0.030 61 311 B 4 75 76 74 71
  • B 0.588 .750 0.030 61 311 c 1 56 55 49 46
  • B 0.588 . 750 0.021 43 311 c 2 59 58 S7 SB t 8 0.588 .750 0.021 43 311 c 3 60 56 58 78
  • 8 0.588 .7SO 0.021 43 (** 311 c 4 64 61 63 63
  • B 0.588 .750 0.021 43 311 D 1 49 42 47 42
  • 8 O.S88 .813 0.016 33 311 D 2 42 53 34 26 t B 0.588 .813 0.016 33 311 D 3 44 49 42 40
  • 8 *0.588 . .813 0.016 33 3U D 4 49 S2 52 48
  • 8 O.SB8 .813 0.016 33 314 A 1 93 78 as* 83
  • 10 0.196 .688 0.038 77 314 A 2 89 88 86 86
  • 10 0.196 .688 0.038 77 314 A 3 94 81 76 84 t 10 0.196 .688 0.038 77 314 A 4 83 82 83 83
  • 10 0.196 .688 0.038 77 314 B 1 69 71 71 67
  • 10 0.196 .7SO 0.031 63 314 B 2 89 74 75 78
  • 10 0.196 .750 0.031 63 314 B 3 78 65 62 76
  • 10 0.196 .750 0.031 63 314 B 4 78 75 70 75
  • 10 0.196 .750 0.031 63 314 c 1 46 47 41 41
  • 10 0.196 .813 0.020 41 314 c 2 49 4S 42 4S ' 10 0.196 .813 0.020 41 314 c 3 45 ND 35 14 t 10 0.196 .813 0.020 41 314 c 4 24 50 48 48
  • 10 0.196 .813 0.020 41 314 D 1 ND ND ND ND
  • 10 0.196 .813 0.012 20 314 D 2 ND 27 32 22 t 10 0.196 .813 0.012 20 314 D
  • 3 ND ND ND ND
  • 10 0.196 .813 0.012 20 314 D 4 ND 3 NGD NQD
  • 10 0.196 .813 0.012 20 315 A 1 91 87 87 87
  • 10 0.588 1.000 0.039 BO 315 A ') 89 90 92 89 * . 10 0.588 1.000 0.039 80 .l. 315 A 3 91 91 98 93
  • 10 1).588 1.000 0.039 81) 315 A 4 89 89 87 89
  • 10 0.588 1.000 0.039 80 315 B 1 62 61 64 70
  • 10 0.588 .813 0.029 59 315 B ') 67 66 69 66
  • 10 0.588 .813 0.029 59 \. ... 315 B 3 76 73 81 78
  • 10 0.588 .813 0.029 59 315 B 4 74 73 74 73 t 10 0.588 .813 0.029 59 Page 52 of 136 irlASDATA.4C4
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH ZDEPTH -----------------------------------------------------------------------------------------------

315 c 1 58 44 54 53

  • 10 0.588 .875 0.020 41 315 c 2 31 33 45 40
  • 10 0.588 .875 0.020 41 315 c 3 55 56 71 60
  • 10 0.588 .875 0.020 41 315 c 4 60 54 60 56
  • 10 0.588 .875 0.020 41 :m D 1 NGD 31 38 32
  • 10 0.588 .688 0.016 33 315 D 2 11 17 29 26
  • 10 0.588 .688 0.016 33 315 D 3 45 41 . 61 36
  • 10 0.588 .688 0.016 33 315 D 4 34 25 37 36
  • 10 0.588 .688 0.016 33 317 A 1 86 89 93 89
  • 2 0.078 0.078 0.038 76 317 A 2 87 91 78 85
  • 2 0.078 0.078 0.038 76 317 A 3 86 97 83 82
  • 2 0.078 0.078 0.038 76 317 A 4 87 76 86 78
  • 2 0.078 0.078 0.038 76 317 B 1 87 87 90 87
  • 4 0.078 0.078 0.040 80 . 317 B 2 85 82 70 81
  • 4 0.078 0.078 0.040 BO 317 B 3 83 92 85 78
  • 4 0.078 0.078 0.040 80 317 B 4 B9 87 84 82
  • 4 0.07B 0.07B 0.040 BO 317 c 1 82 83 90 B4
  • B (l,078 (l.078 0.040 80 317 c 2 80 86 87 77 l 8 0.078 0.078 0.040 BO _ :m c 3 85 84 86 79
  • B 0.078 0.078 0.040 BO 317 c 4 85 89 83 81
  • B 0.078 0.078 0.040 BO 317 D 1 50 65 60 62
  • 10 0.078 0.078 0.032 64 317 D 2 45 79 74 66
  • 10 0.078 0.078 0.032 64 317 D 3 67 58 BO 71
  • 10 0.078 0.078 0.032 64 317 D 4 52 51 62 37
  • 10 0.078 0.078 0.032 64 ** 319 A 1 ND ND ND ND
  • 4 0.190 0.190 0.012 25 :'.' \\ 319 A 2 ND ND ND ND
  • 4 ' 0.190 0.190 0.012 25 319 A 3 ND ND ND ND
  • 4 0.190 0.190 0.012 25 319 A 4 ND ND ND ND
  • 4 0.190 0.190 0.012 25 319 B 1 ND ND ND ND
  • 5 0.190 0.190 0.014 29 319 B 2 ND ND ND ND*
  • 5 0.190 0.190 0.014 29 319 B 3 ND ND ND ND
  • 5 0.190 0.190 0.014 29 319 B 4 ND ND ND ND
  • 5 0.190 0.190 0.014 29 319 c 1 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 c 2 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 c 3 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 c 4 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 D 1 ND ND ND ND
  • 11 0.190 0.190 0.012 . 25 319 D 2 ND ND ND ND
  • 11 0.190 0.190 0.012 25 319 D 3 ND ND ND ND
  • 11 0.190 0.190 0.012 25 319 D 4 ND ND ND
  • ND
  • 11 0.190 0.190 0.012 25 320 A 1 83 84 87 89 ** 2 0.080 0.080 0.040 83 320 A 2 94 90 95 90
  • 2 0.080 0.080 0.040 83 320 A 3 93 90 98 *
  • 2 0.080 0.080 0.040 83 320 A 4 95 94 95 97 ** 2 o.oeo 0.080 0.040 83 320 B 1 68 60 69 77
  • 5 0.080 0.000 0.040 83 320 B 2 99 84 86 81
  • 5 0.080 0.080 0.040 83 320 B 3 99 78 70 *
  • 5 0.080 0.080 0.040 83 320 B 4 . 79 81 79 85
  • 5 0.080 0.080 0.040 83 320 c 1 39 29 26 78
  • B 0.080 0.080 0.038 79 320 c 2 94 56 50 72 ** 8 0.080 0.080 0.038 79 :. 320 c 3 ND 62 29 *
  • 8 0.080 0.000 0.038 79 320 c 4 71 71 68 60
  • 8 0 .* 000 0.080 0.038 79 320 D 1 NGO ND ND 67
  • 10 0.080 0.080 0.036 75 Page 53 of 136 WASDATA.4C4
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH /.DEPTH -----------------------------------------------------------------------------------------------

320 D 2 ND 42 40 53 t 10 0.090 0.090 0.036 75 320 0 3 65 35 ND

  • t 10 Cl.090 0.080 0.036 75 . 320 D 4 68 "65 62 65 t 10 0.080 0.080 0.036 75 369 A 1 ND ND ND ND t 10 (l.078 0.078 0.040 80 369 A 2 ND ND ND ND t 10 0.078 0.079 0.040 80 369 A 3 ND NGD ND ND t 10 0.079 0.078 0.040 80 369 A 4 NQD NGD NGD NGD ' 10 0.079 0.07B 0.040 BO 369 B 1 ND ND ND ND t 10 0.109 0.109 0.030 60 369 .B 2 ND ND ND ND t 10 0.109 0.109 0.030 60 369 B .,. ND ND ND ND ' 10 0.109 0.109 0.030 60 369 B 4 ND NGD NGD ND ' 10 0.109 0.109 0.030 60 369 c 1 ND ND ND ND
  • 10 0.1B7 0.187 0.020 40 369 c 2 ND ND ND ND ' 10 0.1B7 0.187 0.020 40 369 c 3 ND ND ND ND ' 10 0.187 0.187 0.020 40 369 c 4 ND ND ND ND
  • 10 0.187 0.187 0.020 40 369 D 1 ND ND ND ND
  • 10 0.187 0.1B7 0.015 30 369 D 2 ND ND ND ND t 10 0.1B7 0.1B7 0.015 30 369 D .,. ND ND tlD ND l 10 0.1B7 0.1B7 0.015 30 .J 369 D 4 ND ND ND ND t 10 0.187 0.187 0.015 30 369 E 1 NGD NGD ND ND
  • 10 o.ooo 0.000 0.000 0 369 E 2 ND ND ND ND t 10 0.000 0.000 . o.ooo 0 369 E 3 ND ND ND ND t 10 o.ooo o.ooo 0.000 0 369 E 4 ND ND ND ND ' 10 0.000 0.000 0.000 0 370 A 1 ND ND ND ND ' 15 0.078 0.078 0.040 80 (. 370 A 2 ND ND ND ND t 15 0.078 0.07B 0.040 BO 370 A 3 94 ND 93 ND
  • 15 0.07B 0.078 0.040 BO 370 A 4 47 60 59 60 t 15 0.078 0.078 0.040 BO 370 B 1 ND ND ND ND ' 15 0.109 0.109 0.030 60 370 B 2 ND ND ND ND ' 15 0.109 0.109 . 0.030 60 370 B 3 ND ND ND ND ' 15 0.109 0.109 0.030 60 370 B 4 NGD NGD NGD NGD t 15 0.109 0.109 0.030 60 370 c 1 ND ND ND ND t 15 0.1B7 0.187 0.020 40 370 c 2 ND ND ND ND t 15 0.187 0.187 0.020 40. 370 c 3 ND ND ND ND
  • 15 0.187 0.187 0.020 40 370 c 4 ND ND ND ND ' 15 0.187 0.187 0.020 40 370 D 1 ND ND ND ND ' 15 0 *. 101 0.187 0.015 30 370 D 2 ND ND ND ND
  • 15 0.187 0.187 0.015 30 370 D 3 ND ND ND ND ' 15 0.187 0.187 0.015 30 370 D 4 ND ND ND ND ' 15 0.187 0.187 0.015 30 370 E 1 ND ND ND ND ' 15 0.000 0.000 0.000 0 370 E 2 ND ND ND ND
  • 15 0.000 0.000 o.ooo 0 370 E 3 ND ND ND ND
  • 15 0.000 o.ooo o.ooo 0 370 E 4 ND ND ND ND
  • 15 0.000 0.000 0.000 0 371 A 1 ND ND ND ND
  • 20 0.078 0.078 0.040 BO 371 A 2 ND ND ND ND t 20 0.078 0.078 0.040 BO 371 A ,. ND ND ND ND
  • 20 0.078 0.078 0.040 80 .. 371 A 4 ND ND
  • ND ND 20 (l.078 0.078 0.040 BO 371 B 1 ND ND ND ND
  • 20 0.109 0.109 0.030 60 371 B 2 ND ND ND ND
  • 20 0.109 0.109 0.030 60 371 B 3 ND ND ND ND
  • 20 0.109 0.109 0.030 60 ** 371 B 4 ND 'ND t ND ND 20 0.109 0.109 0.030 60 371 c 1 ND ND ND ND i 20 0.187 0.187 0.020 40 371 c 2 ND ND ND ND
  • 20 0.187 0.187 0.020 40 Page 54 of 136 WA5DATA.4C4
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECTS DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

371 c 3 ND ND ND ND

  • 20 0.187 0.187 0.020 40 371 c 4 ND ND
  • ND ND 20 0.187 0.187 0.020 40 371 D 1 ND ND ND ND
  • 20 0.187 0.187 0.015 30 371 D 2 ND ND ND ND
  • 20 0.187 0.187 0.015 30 371 D 3 ND ND ND ND
  • 20 0.187 0.187 0.015 30 371 D 4 ND ND
  • ND ND 20 0.187 0.187 0.015 30 371 E 1 ND ND ND ND
  • 20 0.000 0.000 0.000 0 371 E 2 ND ND ND ND
  • 20 0.000 0.000 0.000 0 371 E T
  • ND ND ND
  • 20 0.000 0.000 0.000 0 -* 371 E 4 ND ND
  • ND ND 20 0.000 o.ooo 0.000 0 372 A 1 ND ND ND ND
  • 25 0.078 0.078 0.040 80 372 A 2 ND ND ND ND
  • 25 0.078 0.078 0.040 BO 372 A 3 ND ND ND ND ** 25 0.078 0.078 0.040 80 372 A 4 ND ND ND N!lD i 25 0.078 0.078 0.040 80 372 B 1 ND ND ND ND
  • 25 0.109 0.109 0.030 60 372 B 2 ND ND ND ND
  • 25 0.109 0.109 0.030 60 372 B 3 ND ND ND ND
  • 25 0.109 0.109 0.030 60 .. ., .)/ i. B 4 ND ND ND NGD l 25 0.109 0.109 0.030 60 372 c ND ND ND ND
  • 25 0.187 0.187 0.020 40 372 c ,, ND NQ ND ND
  • 25 0.187 0.187 0.020 40 L 372 c 3 ND ND ND ND
  • 25 0.187 0.187 0.020 40 372 c 4 ND ND ND ,., ... ND
  • 25 0.187 0.187 0.020 40 :m D 1 ND ND ND ND
  • 25 0.187 0.187 0.015 30 372 D 2 ND ND ND ND t 25 0.187 0.187 0.015 30 ::/. 372 D 3 ND ND . ND ND
  • 25 0.1B7 0.187 0.015 30 372 D 4 ND ND ND ND t 25 0.1B7 0.1B7 0.015 30 372 E 1 ND ND ND ND t 25 0.000 0.000 0.000 0 372 E 2 ND ND ND ND
  • 25 0.000 o.ooo 0.000 0 372 E 3 ND ND ND *
  • 25 o.ooo o.ooo 0.000 0 372 E 4 ND ND ND ND
  • 25 0.000 o.ooo 0.000 0 373 A 1 ND ND ND ND
  • 30 0.07B 0.078 0.040 BO 373 A ,, ND ND ND ND
  • 30 0.07B 0.07B 0.040 BO L 373 A 3 ND ND ND
  • ND
  • 30 0.07B 0.07B 0.040 BO 373 A 4 ND ND NQD NGD
  • 30 0.07B 0.078 0.040 BO 373 B 1 ND ND ND ND
  • 30 0.109 0.109 0.030 60 373 B 2 ND ND ND ND
  • 30 0.109 0.109 0.030 60 373 B 3 ND ND ND ND
  • 30 0.109 0.109 0.030 60 373 B 4 ND ND NGD NGD
  • 30 0.109 0.109 0.030 60 373 c 1 ND ND ND ND ' 30 0.187 0.1B7 0.020 40 373 c 2 ND ND ND ND
  • 30 0.187 0.1B7 0.020 40 373 c 3 ND ND ND ND i 30 0.1B7 0.1B7 0.020 40 **T :;,/ ._. c 4 ND ND ND ND
  • 30 0.187 0.1B7 0.020 40 373 D 1 ND ND ND ND
  • 30 0.1B7 0.1B7 0.015 30 373 D 2 ND ND ND ND
  • 30 0.1B7 0.187 0.015 30 373 D 3 ND ND ND ND i 30 0.1B7 0.187 0.015 30 373 D *4 ND ND ND ND
  • 30 0.187 0,187 0.015 30 373 E 1 ND ND ND ND
  • 30 0.000 0.000 0.000 0 373 E 2 ND ND ND ND
  • 30 0.000 0.000 0.000 0 373 E 3 ND ND ND ND
  • 30 0.000 0.000 0.000 0 373 E 4 ND ND ND
  • 30 0.000 0.000 o.ooo 0 : .*
  • '*.**
  • iSADA TA. 4C4 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 382 D 382 D 382 D
  • 382 D 382 E 382 E 382 E 382 E 383 D 383 D 383 D 383 D 383 E 383 E 393 t 383 E 384 D 384 : 384 D 2 .. *J 4 2 3 4 2 3 4 2 .. *J 4 "I ;. .) 384 D 4 384 E . 1 384 E 2 384 E 3 384 E 4 385 D 385 D 2 385 D 3 385 D 4 385 E 1 E 2 385 E 3 385 E 4 :3b D 386 D 2 386 D 386 D 386 E 386. E 386 E 386 E 387 D 387 D 387 D "'"... " .;tj/ l} 387 f 387 E 387 E 387 E 388 D 388 D 388 D 388 D :BB E 3 4 1 2 3 4 1 2 .. 4 2 .;, 4 1 2 .. .., 4 22 46 19 . B 21 HD 9 7 9 17 35 ND ND 66 63 16 ND ND ND ND ND NGD NGO ND tlD ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 36 37 45 32 53 41 31 44 38 40 34 33 65 42 53 42 45 49 55 50 54 38 44 45 34 28 38 36 47 45 33 51 44 38 43 34 40 43 54 17 . 22 29 49 49 60 49 86 44 36 37 37 45 38 -47 28 37 37 29 36 36 60 55 54 70 77 37 65 64 . 57 50 49 54 50 52 55 54 55 62 43 53 49 44 43 52 58 60 60 53 47 33 59 64 64 54 51 52 84 84 84 95 97 99 86 87 89 87 84 86 86 88 89 14 ND 7 ND 63 ND ND NGD HD ND HD ND ND ND ND ND 48 40 l 36 55 40 l 57 38 43 41 45 62 53 61 56 37 31 43 31 55 35 58 48 56 60 50 45 62 37 63 48 86 90 89 84 92 i l l i l i l l t l l l t ! t t f 41 l l l 53 * *
  • l t * . l l l *
  • l l l l *
  • l i l
  • l i i l i l
  • l l AI 30.8 30.8 30.8 30.8 26.2 26.2 26.2 26.2 11.5 11.5 11.5 11.5 11.8 11.8 11.8 11.B 51.8 51.8 0 .; .. ,u 51.8 46.3 46.3 46.3 46.3 52.1 52.1 52.1 52.1 45.B 45.B 45.8 45.8 52.8 52.8 52.8 52.8 50.4 50.4 50.4 50.4 57.9 57.9 57.9 57.9 54.9 54.9 54.9 54.9 91.2 91.2 91.2 91.2 92.2 11AI 31.5 31.5 31. 31.5 33.3 ,. .)..;,v 33.3 33.3 12.1 12.1 12.1 12.1 14.2 14.2 14.2 14.2 53.0 53.0 53.0 53.0 53.3 53.3 53.3 53.3 52.3 c., ., J£,,) 52.3 52.3 50.4 50.4 50.4 50.4 .. "I :J.-.J1o,J 53.3 53.3 53.3 55.6 55.6 55.6 55.b 58.9 58.9 58.9 58.9 60.0 60.0 60.0 60.0 91. 4 91.4 91.4 91.4 99.4 HP 77.6 77.6 77.6 77.b 58.6 58.6 58.6 58.6 26.1 26.1 26.1 26.1 24.2 24.2 24.2 24.2 78.2 78.2 78.2 78.2 71.5 71.5 71.5 71.5 73.7 73.7 73.7 73.7 60.5 60.5 60.5 60.5 75.4 75.4 75.4 75.4 67.6 67.6 67.6 67.6 90.6 90.6 90.6 90.6 78.2 78.2 78.2 78.2 99.6 99.6 99.6 99.6 100.0 AS 45.3 45.3 45.3 45.3 50.2 50.2 50.2 50.2 Page 55 of 136 MAS DENT 47.3 47.3 . 47.3 47.3 50.2 5_0.2 50.2 50.2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 . 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 AXIAL 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 . 0.20 0.20 0.20 0:20 0.20 .0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 CIRC DEPTH 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.SBB 0.588 0.588 0.588 0.588 0.588 0.5BB 0.588 0.588 0.588 0.588 0.588 O.SBB 0.588 0.588 0.588 0.5BB 0.588 0.5BB 0.588 0.588 0.588 0.588 0.588 0.588 0.58i! 0.588 0.588 0.5BB 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 30 30 30 3-0 30 30 30 30 20 20 20 20 20 20 20 20 40 40 40 40 40 40 40 40 50 50 50 50 50 50 50 5-0 60 60 60 .. 60 60 60 60 60 . 80 80 80 80 BO 80 BO so 100 100 100 100 100
  • .... .. ' IGADATA.4C4 ID DEF *PRO ECTl. ECT2 ECT3 ECT4 ECT5 3B8 E 388 E . 388 E 389 D 389 D 389 D 389 D 389 E 389 E 389 E 389 E 390 D 390 D 390 D 390 D 390 E 390 E 390 E 390 E 391 D 391 D 391 D 391 D 391 E 391 t. 391 E 391 E 392 D 392 D 392 D D 392 ' 392 C' 392 E 392 E 393 D 393 D 393 D 393 D 393 E 393 393 E 393 394 .J 394 394 2 ,. *-* 2 1 2 ' *J 4 .) 4 " i,, 4 2 4 2 4 ., .. .,. .j ! 4 2 T *J 4 2 .j 87 90 90 lb 29 36 NiJD me INC me INC ND ND NO ND ND ND ND ND 40 46 20 25 54 37 78 37 22 -11 18 Bl NQD 58 51 41 35 47 51 58 68 64 46 55 46 45 67 48 .,. !i.. t-3 80 95 85 89 24 ND . 21 ND INC INC INC INC ND ND ND ND INC ND rm tm 45 32 36 33 47 48 67 44 12 10 21 12 70 45 56 52 44 48 44 64 42 66 66 45 56 . .,. ._:.;.: 65 83 "!ti Ji.. 64 80 85 98 89 91 3 ND 34 NOD !NC INC INC INC ND ND ND ND ND ND 35 28 35 22 INC . 47 66 43 22 13 20 . ., J,,,;. 64 "ti NGD 52 55 48 42 46 56

.;;/ 55 54 49 65 82 73 60 82 88 91 89 '90 25 NOD 17 31 INC INC !NC INC ND ND ND ND ND ND tlD 27 42 30 25 54 43 63 41 40 31 21 14 60 36 NOD 53 55 49 49 49 56 58 65 68 44 58 55 50 66 84 71 63 80 90 l

  • i l l l l l l i l
  • l *
  • l
  • l l * *
  • i
  • AI 92.2 92.2 92.2 43.3 43.3 43.3 43.3 32.4 32.4 32.4 32.4 21.5 21.5 21. 5 21.5 18.1 18.1 18.1 18.1 43.9 43.9 43.9 43.9 41.9 41.9 41.9 41.9 45.6 45.6 45.6 45.6 44.3 44.3 44.3 44.3 53.9 53.9 53.9 53.9 54.2 54.2 56.2 58.2 46.0 48.(i 48.0 48.0 82.0 82.0 MAI . 98.4 98.4 98.4 43.9 43.9 43.9 . 43.9 41.2 41.2 41.2 41.2 22.3 22.3 .,., 't i-i-1-.J n1 ...... .i. 22.1 22.1 22.1 44.9 44.9 44.9 44.9 47.6 47.6 47.6 47.6 45.8 45.B 45.8 45.8 51.3 51.3 51.3 51.3 56.0 56.0 56.0 56.0 60.4 b0.4 60.4 60.4 59 .B 59.8 59.8 59.8 Si.O I !:;j 1"1 \ ._1; .v 57.0 57.0 83.6 83.6 MP 100.0 100.0 100.0 79.2 79.2 79.2 79.2 62.6 62.6 62.6 62.6 63.0 63.0 63;0 63.0 51.3 51.3 51.3 51.3 85.4 85.4 85.4 85.4 69.8 69.8 69.B 69.8 77.6 77.6 77.6 77.6 69.7 69.7 69.7 li9.7 81.5 81.5 81.5 81. 5 73.6 73.6 73.6 73.6 91.3 91.3 91.3 91.3 .73. 5 73.5 100.0 100.0 AS 59.0 59 .0 59.0 59.0 39.4 39.4 39.4 39.4 36.9 36.9 36.9 36.9 60.5 li0.5 60.5 li0.5 57.7 57. 7 57.7 57.7 61.1 61.1 61.1 61.1 64.7 64.7 64.7 Page 56 of 13'p MAS DENT 59.2 59.2 59.2 59.2 40.9 40.9 40.9 40.9 37.7 37.7 37.7 37.7 61.9 61.9 61. 9 61. 9 57.7 57.7 57.7 57.7 61.1 61.1 61.1 61.1 64.7 64.7 64.7 64.7 2 2 2 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 AXIAL 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 . 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 CIRC DEPTH 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0 .* 588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 o.saa 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 100 100 100 30 30 30 30 30 30 30 30 20 20 20 20 20 20 20 20 40 40 40 40 40 40 40 40 50 50 50 50 50 50 50 50 60 60 60 60 60 60 60 60 BO so 80 80 80 BO 80 so 100 100
SADAT A
  • 4C4
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 395 D 395 !} .)95 395 E .:85 l: 395 E 396 D 396 D 396 D 396 D 396 E 396 E 390 E 396 E 397 D 397 D 397 D 397 D 397 E 397 E 39i E 397 E 398 D 398 D .:'. 398 D \ 398 D
  • 398 E 398 E 398 E 398 E 399 D 399 D 399 D 399 D 399 E 399 E 399 E 399 E 400 D 400 D 400 D 400 D 400 E 400 E 400 E 400 E 401 401 L; 401 D 401 D 401 401 401 3 4 2 3 4 ., i. .J 2 3 4 2 3 4 2 3 4 2 3 4 2 3 4 .. l 2 " i. "! ., ' 2 3 4 2 3 ! ,_ .. 4 82 83 82 92 83 84 29 25 14 26 82 ND NGD 55 ND ND ND NGD 80 ND ND NQD ND ND ND ND ND ND HD ND 45 37 36 .. .,:;, 62 50 72 62 45 37 49 29 80 Bl 78 58 33 93 83 *..i:... 74 84 79 83 82 Bl 84 83 85 91 83 85 85 84 84 21 ND ND 29 34 48 40 31 ND 55 ND ND NGD NGD 63 37 ND tlD ND ND tm NGD NGO NGD ND ND ND ND ND ND NGD NGD ND N9D ND ND ND ND ND ND ND ND ND ND ND ND ND ND 46 31 45 47 46 45 41 42 61 63 21 13 70 71 64 61 51 36 47 38 46 52 35 31 75 70 85 69 73 73 54 50 85 87 86 95 82 86 82 81 76 63 79 99 78 81 85 83 83 91 87 85 10 45 45 38 ND 28 NGD 46 flD ND ND ND ND ND ND NGD ND ND ND ND ND ND ND ND 51 H 45 42 56 45 68 56 44 38 47 41 55 14 74 50 84 88 89 78 73 82 80 *
  • i *
  • l l
  • l l l l l l l * * *
  • l
  • l l l l l l l l
  • l AI 82.0 82.0 79.8 79.8 79.B 79.8 42.3 42.3 42.3 42.3 31.3 31.3 31.3 31.3 29.6 29.6 29.6 29.6 24.9 24.9 24.9 24.9 12.5 12.5 12.5 12.S 13.4 13.4 13.4 13.4 54.2 54.2 54.2 54.2 49.6 49.6 49.6 49.6 50.4 50.4 50.4 50.4 39.8 39.8 39.8 39.8 81. 9 81. 9 81. 9 81. 9 70.2 70.2 70.2 MAI 83.6 83.6 88.4 88.4 88.4 88.4 44.5 44.5 44.5 44.5 40.5 40.5 40.5 40.5 30.6 30.6 30.6 30.6 29.8 29.8 29.8 29.8 12*.0 12.8* 12.8 12.8 14.6 14.6 14.6 14.6 54.8 54.B 54.B 54.8 56.3 56.3 56.3 56.3 51.4 51.4 51.4 51.4 47.0 47.0 47.0 47.0 84.2 84.2 84.2 84.2 77.3 77.3 77.3 MP 100.0 100.0 96.1 96.1 96.1 96.1 80.5 80.5 80.5 80.5 72.9 72.9 72.9 72.9 .62.9 62.9 62.9 62.9 61. 9 61.9 61.9 61.9 23.2 23.2 23.2 23.2 36.2 36.2 36.2 36.2 84.4 84.4 84.4 84.4 72.4 72.4 72.4 72.4 83.7 83.7 83.7 83.Z 71.8 71.8 71.8 71.8 100.0 100.0 100.0 100.0 92.8 92.8 92.8 AS 58.2 58.2 58.2 58.2 55.4 55.4 55.4 55;4 49.8 49.8 49.B 49.8 45.6 45.6 45.6 45.6 26.0 26.0 26.0 26.0 54.9 54.9 54.9 54.9 Page 57 of 136 MAS DEtH 58.2 58.2 58.2 58.2 55.5 55.5 55.5 55.5 50.7 50.7 50.7 50.7 50.1 50.1 50.1 50.1 26.0 26.0 26.0 26.0 54.9 54.9 54.9 54.9 4 4 4 4 4 4 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 AXIAL 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 , 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 C.20 0.20 0.20 0.20 CIRC DEPTH 0.588 100 0.588 100 0.568 100 0.588 100 0.588 . 100 0.588 100 o. 588 30 0.588 30 o. 588 30 0.588 30 o. 588 30 0.588 30 o. 588 30 0.588 30 0.588 20 o. 588 20 0. 588 20 o. 588 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588 40 0.588 40 o. 588 40 0.588 40 0.588 4'() 0.588 40 0.588 40 0.588 40 0.588 50 o. 588 50 o. 588 50 O. 5B8 50 o. 588 50 o. 588 50 0.588 50 0.588 50 0.588 60 o. 588 60 o. 588 60 0.588 60 0.588 £0 0.588 60 0.588 60 0. 588 60 0.588 80 0. 588 BO 0.568 80 0.588 80 O. 5B8 BO O. 588 BO 0.588 80 Page 5 8 of 136 ** I6ADAiA.4C4 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI MAI MP AS llAS DENT AXIAL* CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

401 E 4 75 75 75 73

  • 70.2 77.3 92.B 6 0.20 0.588 80 402 D 1 . 76 76 74 77 l 73.0 74.0 99.6 6 0.20 0.588 100 402 D " 85 87 87 85
  • 73.0 74.0 99.6 6 0.20 0.588 100 '-402 !) .. 76 79 81 Bl
  • 73.0 74.0 99.6 6 0.20 0.588 100 402 D 4 68 73 74 72
  • 73.0 74.0 99.6 6 0.20 0.588 100 402 E 1 78 80 81 79
  • 76.2 81.5 94.6 6 0.20 0.588 100 402 E ., 71 74 79 76
  • 76.2 81.5 94.6 6 0.20 ' 0.588 100 .. 402 E .. 83 84 84 83
  • 76.2 Bl.5 94.6 6 0.20 0.588 100 402 4 81 77 76 78
  • 76.2 81.5 94.b 6 0.20 0.5BB 100 403 D 1 ND ND ND 88
  • 13.5 14.4 48.0 26.7 28.6 8 0.20 0.588 30 403 0 2 ND ND ND ND l 13.5 14.4 48.0 26.7 28.6 8 0.20 0.588 30 403 D 3 ND ND ND ND l 13.5 14.4 "48.0 26.7 28.6 8 0.20 0.588 30 403 D 4 ND ND ND ND
  • 13.5 14.4 48.0 26.7 28.6 8 0.20 0.588 30 403 E 1 ND ND ND ND
  • 11. 7 14.0 33.1 21.7 24.3 8 0.20 0.588 30 403 E 2 ND ND ND ND
  • 11. 7 14.0 33.1 21.7 24.3 8 0.20 0.588 30 403 E ,. ND ND ND ND
  • 11. 7 14.0 33.l 21. 7 24.3 8 0.20 0.588 30 *J 403 . ' ND ND ND ND i 11. 7 14.0 ,.,. i 21. 7 24.3 8 0.20 0.588 30 r. 't ._,._ .. 404 D 1 ND ND ND ND a 16.1 16.4 59.2 .,..,. 4. .J.J11 34.3 8 0.20 0.588 20 404 D 2 ND ND ND ND
  • 16.1 16.4 59.2 33.4 34.3 B 0.20 0.588 20 . 404 D 3 tlD ND ND ND
  • 16.l 16.4 59.2 33.4 34.3 8 0.20 0.588 20 404 D
  • ND ND ND *
  • 16.1 16.4 59.2 33.4 34.3 8 0.20 0.588 20 't 404 E 1 ND ND ND ND
  • 15.9 19.7 52.3 37.2 37.3 8 0.20 0.588 20 404 E 2 ND ND ND ND
  • 15.9 19.7 52.3 37.2 37;3 8 0.20 0.588 20 404 E 3 ND ND ND ND
  • 15.9 19.7 52.3 37.2 37.3 8 0.20 . 0.588 20 ::. 404 E 4 ND ND ND ND
  • 15.9 19.7 52.3 37.2 37.3 8 0.20 0.588 20 405 D 1 .34 36 29 27
  • 49.5 50.B 84.1 8 0.20 0.588 40 405 D 2 68 29 50 38
  • 49.5 50.B 84.1 B 0.20 0.588 40 405 D 3 50 48 54 52
  • 49.5 50.8 84.1 8 0.20 0.588 40 405 D 4 17 24 24 28 l 49.5 50.8 94.1 8 0.20 0.588 40 405 E 1 82 77 79 83 i 36.6 46.B 65.3 8 0.20 0.588 40 405 E 2 ND ND ND 17
  • 36.6 46.8 65.3 8 0.20 0.588 40 405 E 3 NOD NQD NQD NOD
  • 36.6 46.8 65.3 8 0.20 0.588 40 405 E 4 77 81 79 72 ' 36.6 46.B 65.3 B 0.20 0.598 40 406 D 1 56 53 38 48
  • 59.8 61.7 90.B 8 0.20 0.588 50 406 D 2 41 60 56 61
  • 59.B 61. 7 90.8 B 0.20 0.588 50 406 D 3 . 41 44 54 29
  • 59.B 61.7 90.8 B ' 0.20 0.588 50 406 D 4 28 29 26 29 i 59.B 61. 7 90.B B 0.20 0.588 50 406 E 1 71 70 67 69
  • 49.0 57.3 74.8 8 0.20 0.588 50 406 E 2 23 NQD 17 11 * . 49.0 57.3 74.B B 0.20 0.588 50 406 E 3 81 75 NQD NGD
  • 49.0 57.3 74.8 B 0.20 0.588 50 406 E 4 72 74 74 71
  • 49.0 57.3 74.8 B 0.20 0.588 50 407 D 1 55 45 49 62
  • 63.0 64.6 88.B 8 0.20 0.588 60 407 D 2 60 72 62 63 l 63.0 64.6 88.B B 0.20 0.588 60 407 D 3 51 54 63 55
  • 63.0 64.6 88.8 8 0.20 0.588 60 407 D 4 33 42 36 33
  • 63.0 64.6 BB.B 8 0.20 0.588 60 40i E 1 76 71 75 68
  • 50.6 59.0 72.6 B 0.20 0.588 . 60 407 2 26 ND 23 21 ' 50.6 59.0 72.6 8 0.20 0.588 60 407 E 3 Bl 79 NQD NOD
  • 50.6 59.0 72.6 B 0.20 0.588 60 407 E ' i3 71 64 66
  • 50.6 59.0 72.6 8 0.20 0.588 60 .. 408 D 1 83 85 86 86 i 91.6 92.2 100.0 B 0.20 1).588 80 ,'* .. 408 D 2 BB 99 98 98
  • 91.6 92.2 100.0 8 0.20 0.588 BO :. 408 D ,. 86 87 86 88
  • 91.6 92.2 100.0 B 0.20 0.588 ao ., 408 D 4 89 89 87 87
  • 91.6 92.2 100.0 B 0.20 0.588 BO
  • *
  • IGADATA.4C4 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 408 E 408 E 408 E 4t)8 E 409 I) 409 D 409 D 409 D 409 409 E 409 E 409 E 410 D 410 D llO D 410 D 410 t 410 410 t 410 t* 411 D 411 D 411 D 411 D 411 '11 ,.. "t ... J. c. 411 E 411 E 412 D 412 D 412 D "i I"". " "!'lL !.J 412 E !1"'.I: C' i.j'.;..;. 412 : 412 E 413 D 413 D 413 D 413 D 413 E 413 E 413 E 413 E 414 D 414 D 414 D 414 D 414 E "'
t. .i14 E 414 E 415 D 2 T *.J 4 2 ., *J 4 2 3 4 1 2 T *-* 4 ,, i. 3 4 1 2 3 4 2 3 4 2 3 4 L 3 4 2 ., ,1 4 1 2 T -* 4 2 3 4 2 3 4 79 61 83 82 91 95 91 93 84 95 87 84 ND ND trn ND ND ND ND ND ND ND ND ND ND ND ND ND 22 51 75 22 76 IT ..... NGD 65 67 67 63 58 69 52 66 69 35 32 'i :i. 21 70 18 NilD 61 79 INC 66 84 80 93 99 91 91 83 99 86 85 ND ND ND tlD tlD ND ND ND ND ND ND ND ND ND ND ND 17 50 50 35 74 73 67 64 65 77 67 66 69 48 64 70 31 28 37 NGD 66 18 N9D 60 79 77 76 63 68 83 83 79 77 49 92 99 96 90 90 89 91 83 84 91 99 84 84 84 84 ND ND ND ND ND ND ND ND ND ND ND NO ND ND ND ND ND tlD ND ND ND ND ND ND ND ND ND ND ND ND ND ND 14 24 37 49 59 51 41 41 67 70 20 31 48 60 54 52 64 70 75 70 67 67 61 64 66 65 22 66 62 64 66 ' 68 12 35 36 30 55 69 42 33 69 56 85 14 60 60 49 56 78 84 l ' l i i l l
  • l l * *
  • l * *
  • l t l t
  • l * * * *
  • l *
  • l
  • l Ai "'!* f tb. J. .,. 1 lb .. 76.1 76.1 92.i 92.7 92.7 92.i 81.0 81.0 81.0 81.0 30.2 30.2 .)l.J,-' 30.2 24.8 24.8 24.B 24.8 14.2 14.2 14.2 14.2 12a2 12.2 12.2 12.2 39.9 39.9 3"9, 9 39.9 33.(l 38.0 38.0 38.0 64.3 64.3 64.3 64.3 56.6 56.6 56.6 56.6 46.7 46.7 46.7 46.7 43.9 43.9 43.9 43.9 82.7 MAI 83.9 83.9 B3.9 83.9 92.9 92.9 92.9 92.9 88.9 88.9 88.9 88.9 31.3 31.3 31.3 31.3 3i .2 31.2 31.2 .,. ,, .;.J..i. 15.1 15.1 15.1 15.1 15.6 15.6 15.6 15.6 41.6 41.b 41.6' 41.b 43.2 43.2 43.2 43.2 65.3 65.3 65.3 65.3 64.7 64.7 64.7 64.7 48.2 48.2 48.2 48.2 50.1 50.1 50.1 50.1 83.9 MP 92.6 92.6 92.6 92.6 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 69.7 69.7 69.7 69.7 b0.1 60.1 60.1 60.1 56.5 56.5 56.5 56.5 34.9 34.9 34.9 34.9 83.3 83.3 83.3 83.3 65.2 65.2 65.2 65.2 95.8 95.B 95.8 95.8 74.8 74.8 74.8 74.8 92.4 92.4 92.4 92.4 71.3 71.3 71.3 71.3 100.0 AS 51.0 51.0 51.(l 51.0 47.0 4i.O 47.1) 47.0 33.2 33.2 33.2 33.2 25.9 25.9 25.9 25.9 57.3 57.3 57.3 57.3 55.1 55.1 55.1 55.1 Page 59 of 136 l'IAS IiENT 51.8 51.B 51.8 51.8 48.4 48.4 48.4 48.4 35.7 .,c .j.J, J 35.7 35.7 25.9 25.9 25.9 25.9 58.7 58.7 58.7 58.7 55.1 55.1 55.1 55.1 8 8 8 8 8 8 8 8 8 8 8 8 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 AXIAL 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 !).20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 CIRC DEPTH 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 1).588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 80 80 BO 80 100 100 100 100 100 100 100 100 30 7r, .;.) 30 30 30 30 30 30 20 20 20 20 20 20 20 20 40 40 40 40 40 40 40 40 50 50 50 50 50 50 50 60 60 60 60 60 60 I 1' 0,1 60 80
  • IGADATA.m ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 415 D 415 D 415 D 415 E E 415 E 415 E 416 D 416 D 416 D 416 D 416 E 416 E 416 E 416 E 417 D 417 D 417 D 417 D 417 E 417 E 417 E 417 E 418 D 41B D 418 D 418 D 418 E '41B E 418 E 418 E 419 D !19 D 419 D 419 D 419 E 419 E 419 E 419 E 42C< D 420 D 420 D 420 D 420 .. 4i0 E 420 E 420 E 421 D 421 D 421 D 421 D 421 E 4 2 3 2 1 4 3 4 2 3 ') i.. ., .;, 4 1 ., ' 4 4 1 ., i.. 4 1 2 2 ., .j 4 2 3 4 .1 ., i.. 96 Bl BO Bl 77 B4 BO 73 64 74 61 INC 84 75 76 ND ND ND ND 90 NO NQD ND ND ND ND ND ND ND ND 21 47 25 20 80 ND tiGD 78 57 46 50 65 78 NGD NGO 91 21 ND ND ND 83 ND 90 81 85 81 B2 80 77 76 79 80 69 72 88 i6 75 ND ND ND B2 tm NGD flD ND tlD ND ND ND ND ND ND 10 31 26 20 78 16 NGD 84 64 52 62 74 76 69 NGO 7B 17 ND ND ND 77 i*!D 91. 94 85 Bl 84 82 Bl Bl 88 74 80 80 74 75 76 73 70 70 81 73 63 61 70 73 85 B2 75 76 74 75 ND ND ND ND ND ND ND 90 B5 ND ND NGD NGD ND NGD ND ND ND ND ND ND ND
  • l ND ND ND ND ND . ND ND ND 31 22 45 44 41 50 31 66 79 75 13 22 NGD NGD NGD 81 S8 60 71 66 62 55 61 58 Bl 75 NGD NQD NGD 85 87 ND ND ND ND ND ND ND ND BO 82 ND ND ' ' * * * ' * * '
  • l ' ' ' * ' * * ** * * * ' * * * * ' *
  • l
  • l * * *
  • l * ' ' * * * *
  • l
  • AI 82.7 82.7 82.7 74.4 74.4 74.4 74.4 65.2 65.2 65.2 65.2 65.6 65.6 65.6 65.6 34.9 34.9 34.9 34.9 30.3 30.3 30.3 30.3 17.5 17.5 17.5 17.5 17.7 17.7 17.7 17.7 52.7 52.7 52.7 52.7 46.3 46.3 46.3 46.3 63.3 63.3 63.3 63.3 58.4 58.4 58.4 58.4 34.7 34.7 34.7 34.7 41.9 41. 9 MAI 83.9 83.9 83.9 82.5 82.5 82.5 82.5 67.3 67.3 67.3 67.3 73.4 73.4 73.4 73.4 36.0 36.0 36.0 36.0 37.0 37.0 37.0 37.0 18.1 18.1 18.1 18.1 19.8 19.8 19.8 19.B 53.1 53.1 53.1 53.1 50.7 50.7 50.7 50.7 67.7 67.7 67.7 67.7 64.8 64.8 64.8 64.8 36.9 36.9 36.9 36. 9 47.5 47.5 MP 100.0 100.0 100.0 91.1 91.1 91.1 91.1 100.0 100.0 100.0 100.0 90.2 90.2 90.2 90.2 70.3 70.3 70.3 70.3 76.1 76.1 76.1 76.1 61.5 61. 5 61.5 61. 5 59.2 59.2 59.2 59.2 86.6 86.6 86.6 86.6 74.9 74.9 74.9 74.9 88.2 8B.2 88.2 88.2 80.7 80.7 80.7 B0.7 77.4 77.4 77.4 77.4 79.0 79.0 AS 56.9 56.9 56.9 56.9 55.2 55.2 55.2 55.2 39.6 39.6 39.6 '39.6 44.3 44.3 44.3 44.3 55.5 55.5 55.5 55.5 61. 5 61. 5 Page 60 of 136 MAS DENT 57.9 57.9 57.9 57.9 58.3 58.3 58.3 58.3 42.8 42.B 42.8 42.8 47.1 47 .1 47.1 47.1 55.9 55.9 55.9 55.9 61.5 61.5 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 .12 . 12 12 12 12 12 12 12 1'1 *'-AXIAL 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20. 0.20 . 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 CIRC DEPTH. 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.5BB . 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.5B8 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 o.588 0.588 0.588 0.588 0.5B8 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 80 80 80 80 80 80 80 100 100 100 100 100 100 100 100 30 30 30 30 30 30 30 30 20 20 20 20 20 20 20 20 40 40 40 40 40 40 40 40 50 50 50 50 50 so so 50 60 60 60 60 60 60 Page 6l_of 136
  • I6ADATA. 4C4 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI MI MP AS l'IAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

421 i: 3 ND HD ND ND t 41. 9 47.5 79.0 61.5 61.5 12 0.20 0.588 60 ... 4"' ... i: ... 4 NGD NGD NGD 81 s 41.9 47.5 79.0 61.5 61.5 12 0.20 0.588 60 422 D 1 76 78 72 77 ** 81.6 84.9 96.2 12 0.20 0.588 BO 422 D 2 85 79 81 86 s Bl.6 84.9 96.2 12 0.20 0.5BB BO 422 D. 3 77 79 78 78 l 81.6 84.9 96.2 12 0.20 0.588 80 4"" i.L D 4 77 75 75 74 S. 81.6 84.9 96.2 12 0.20 0.588 BO 4"? i: 1 . B3 83 B3 B2 l 7B.9 B3.7 96.1 12 0.20 0.58B BO '-* ... 422 E 2 B5 67 NGD 95 l 78.9 83.7 96.1 12 0.20 0.588 BO 4"" .LJ. E 3 90 92 90 89 l . 78.9 83.7 96.1 12 0.20 0.588 BO 4"" u. E 4 87 B6 88 B7 s 78.9 83.7 96.1 12 0.20 0.58B 80 ;.;;, D 1 B9 BB 87 BB l B6.4 90.2 100.0 12 *0.20 0.5BB 100 4"'l' "" D 2 94 93 93 99

  • B6.4 90.2 100.0 12 0.20 0.5BB 100 4""

D 3 B7 BB 89 86 l 86.4 90.2 100.0 12 0.20 0.5BB 100 4" .. " 4 B9 89 *87 B6

  • 86.4 90.2 100.0 12 0.20 0.588 100 t.-:i Ii '"" E 1 B5 84 B5 B4 s B0.6 B5.B 98.1 12 0.20 0.588 100 423 E 2 BB 97 99 99
  • B0.6 85.B 9B.1 12 0.20 0.5BB 100 423 E .,. 90 91 91 87 t 80.6 85.8 99.1 12 0.20 0.5BB 100 .;, 423 E 4 90 B9 89 88 i B0-.6 B5.B 98.1 12 0.20 0.588 100 424 D 1 HD ND ND HD t . 24.9 25.7 66.0 45.2 46.4 15 0.20 0.588 30 424 D 2 ND ND ND ND
  • 24.9 25.7 66.0 45.2 46.4 15 0.20 0.5BB 30 424 D .,. HD ND ND HD ' 24.9 25. 7 66.0 45.2 46.4 15 0.20 0.5BB 30 .,) 424 D 4 ND ND ND ND l 24.9 25.7 66.0 45.2 46.4 15 0.20 0.5B8 30 424 E 1 ND ND ND HD
  • 21.B 23.4 38.3 15 0.20 0.58B 30 424 E 2 ND ND ND ND
  • 21.B 23.4 3B.3 15 0.20 0.588 30 . _,. 424 E 3 ND ND ND ND
  • 21.B 23.4 3B.3 15 0.20 0.5BB 30 424 E 4 ND ND ND ND
  • 21.B 23.4 3B.3 15 0.20 0.5BB 30 425 D 1 ND ND ND HD s 26.2 28.1 66.6 -50.9 52.4 15 0.20 0.5BB 20 425 D 2 HD ND HD HD t 26.2 2B.1 66.6 50.9 52.4 15 0.20 0.5BB 20 425 D 3 ND ND ND ND l 26.2 2B.1 66.6 50.9 52.4 15 0.20 0.5BB 20 425 D 4 ND ND ND ND
  • 26.2 2B.1 66.6 50.9 52.4 15 0.20 0.5BB 20 425 E 1 ND ND ND ND
  • 17.6 23.6 55.9 40.0 46.6 15 0.20 . 0.58B 20 425 E ., ND ND ND ND s 17.6 23.6 55.9 40.0 46.6 15 0.20 0.5BB 20 L 425 E .,. ND ND HD ND
  • 17.6 23.6 55.9 40.0 46.6 15 0.20 0.5BB 20 .,) .., .. "' E 4 ND ND ND ND
  • 17.6 23.6 55.9 40.0 46.6 15. 0.20 0.5BB 20 426 D 1 29 ND 52 31 ' 55.3 5B.1 79.5 15 0.20 0.5BB 40 426 D 2 ND ND ND NGD
  • 55.3 SB.1 79.5 15 0.20 0.58B 40 426 D 3 58 66 67 65
  • 55.3 58.1 79.5 15 0.20 0.5B8 40 426 D 4 43 68 63 NGD
  • 55.3 58.1 79.5 15 0.20 0.5B8 40 426 E 1 B3 ND ND ND ' 40.6 45.9 70.2 58.7 5B.7 15 0.20 0.5BB 40 426 E 2 ND ND ND 30
  • 40.6 45.9 70.2 58.7 58.7 15 0.20 0.5BB 40 426 E 3 ND ND ND ND
  • 40.6 45.9 70.2 5B.7 5B.7 15 0.20 o.5BB 40 426 .E 4 NQD ND NGD 92
  • 40.6 45.9 70.2 5B.7 SB.7 15 0.20 0.5BB 40 4""' D 1 ND ND ND ND
  • 26.6 28.8 63.7 46.B 49.9 15 0.20 0.5BB so rn D 2 ND ND ND ND
  • 26.6 2B.B 63.7 46.B 49.9 15 0.20 0.5BB 50 1'.'1., D ND ND ND ND
  • 26.6 2B.B 63.7 46.8
  • 49.9 15 0.20 o.5BB 50 "tJ!I 427 0 4 ND ND ND ND ** 26.6 28.B 46.B 49.9 15 0.20 o.sBB 50 427 E 1 ND ND HD ND ' 25.9 29.4 62.7 41.2 4B.2 15 0.20 0.588 50 ,.,., E 2 ND ND ND ND
  • 25.9 29.4 62.7 41.2 4B.2 15 0.20 0.5BB 50 427 E 3 ND ND ND ND t I 25.9 29.4 62.7 41.2 4B.2 15 0.20 0.5BB 50 . /./ E 4 ND ND ND ND
  • 25.9 29.4 62.7 41.2 4B.2 15 0.20 0.5BB 50 .;. 428 D 46 32 53 52 ' 5B.5 60.1 7B.6 15 0.20 o.ssB 60 428 D 2 41 40 53 61
  • 5B.5 60.1 7B.6 15 0.20 0.58B 60 428 D .. 54 71 74 li2 l 5B.5 60.1 7B.6 15 0.20 0.5BB 60 .;,

Page 62 of 136

  • 16ADATA.4C4 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 Al l'IAI KP AS MAS DENT AXIAL CIRC ]EPTH ------------------------------------------------------------------------------------------------------------------------------------

428 D 4 55 56 5B 56 ' 58.5 . 60.1 7B.6 15 0.20 0.5BB 60 428 E 1 71 78 Bl 76 ' 52.7 . 5B.2 80.0 15 0.20 0.58B 60 428 E 2 NQD 22 18 21 ' 52.7 5B.2 BO.O 15 0.20 0.588 60 428 E 3 NQD NDD NQD NQD

  • 52.7 58.2 80.0 15 0.20 0.5BB 60 428 E 4 76 72 79 81
  • 52.7 5B.2 BO.O 15 0.20 0.588 60 429 D 1 84 B3 Bl 81
  • 90.3 91.5 100.0 15 0.20 0.58B BO 429 D 2 91 B6 96 99
  • 90.3 91.5 100.0 15 0.20 0.5BB BO 429 D 3 85 89 . 86 87
  • 90.3 91.5 100.0 15 0.20 0.588 BO 429 D 4 85 85 85 83 ' 90.3 91.5 100.0 15 0.20 0.588 80 429 E 1 86 86 B4 86
  • 82.2 B8.6 96.9 15 0.20 0.588 80 429 E 2 94 71 6B 99 ' 82.2 88.6 96.9 15 0.20 0.588 BO 429 E 3 91 90 93 90
  • B2.2 8B.6 96.9 15 0.20 0.5BB BO 429 . E 4 B5 B7 B5 86 ' B2.2 BB.6 96.9 15 0.20 0.5BB BO 430 D 1 B3 B6 82 99*
  • 90.5 91.5 100.0 15 0.20 0.5BB 100 430 D 2 92 92 B9 BB ' 90.5 91.5 100.0 15 0.20 0.5BB 100 430 D 3 BB 91 90 90
  • 90.5 91.5 100.0 15 0.20 0.5BB 100 430 D 4 BB BB B9 90 ' 90.5 91.5 100.0 15 0.20 0.5BB 100 430 E 1 72 83 B2 82 i 81.4 86.2 96.1 15 0.20 0.5BB 100 430 E 2 BB 92 90 89 ' 81.4 86.2 96.1 15 0.20 0.588 100 430 E .. 88 88 BB 89
  • 81.4 B6.2 96.1 15 0.20 0.58B 100 ,, 430 E 4 B7 82 84 B5 ' 81.4 86.2 96.1 15 0.20 0.5BB 100 431 D 1 ND ND ND ND
  • 44.6 46.0 69.7 20 0.20 0.5BB 30 431 D 2 ND ND ND ND
  • 44.6 46.0 69.7 20 0.20 0.5B8 30 431 D 3 ND ND ND ND ** 44.6 46.0 69.7 20 0.20 O.SBB 30 ,. 431 D 4 ND ND ND ND ' 44.6 46.0 69.7 20 0.20 0.5BB 3o ' ' 431 E 1 . INC INC INC INC
  • 37.1 41.0 66.B 20 0.20 0.588 30 431 E 2 ND INC INC INC
  • 37.1 41.0 66.B 20 0.20 0.588 30 431 E 3 INC INC INC INC
  • 37.1 41.0 66.8 20 0.20 0.588 30 431 E 4
  • INC INC INC
  • 37.1 41.0 66.8 20 0.20 0.588 30 432 D 1 ND ND ND ND
  • 17.2 19.9 59.3* .41.0 45.9 20 0.20 0.588 20 432 D 2 ND ND ND ND
  • 17.2 19.9 59.3 41.0 45.9 20 0.20 0.588 20 432 D 3 ND ND ND ND ** 17.2 19.9 59.3 41.0 45.9 20 0.20 0.58B 20 432 D 4 ND ND ND ND
  • 17.2 19.9 59.3 41.0 45.9 20 0.20 0.5BB 20 432 E 1 ND ND ND ND
  • 25.7 28.1 63.9 46.8 49.8 20 0.20 0.5BB 20 432 E 2 ND ND ND ND
  • 25.7 28.1 63.9 46.B 49.B 20 0.20 0.588 20 432 E 3 ND ND ND ND
  • 25.7 28.1 . 63.9 46.8 49.B 20 0.20 0.588 20 . 432 E 4 ND ND ND ND
  • 25.7 28.1 63.9 46.8 49.B 20 0.20 0.588 20 433 D 1 ND ND ND ND
  • 36.6 39.4 73.0 53.B 55.0 20 0.20 0.5B8 40 433 D 2 ND ND ND ND
  • 36.6 39.4 73.0 53.8 55.0 20 0.20 0.588 40 433 D 3 ND ND ND ND
  • 36.6 39.4 73.0 53.8 55.0 20 0.20 0.5BB 40 433 D 4 ND ND ND ND
  • 36.6 39.4 73.0 53.8 55.0 20 0.20 0.588 40 433 E 1 ND ND ND
  • 39.4 45.5 63.5 52.7 52.7 20 0.20 0.58B 40 433 E 2 ND ND ND ND
  • 39.4 45.5 63.5 52. 7 52.7 20 0.20 0.588 40 433 E '!' ND ND ND ND
  • 39.4 45.5 63.5 52.7 52.7 20 0.20 0.5BB 40 " 433 E 4 ND 'ND HOD NQD
  • 39.4 45.5 63.5 52.7 52.7 20 0.20 0.5BB 40 434 D 1 ND 43 10 40
  • 53.8 55.7 74.0 20 0.20 0.588 50 434 D 2 ND ND . ND ND
  • 53.B 55.7 74.0 20 0.20 0.5BB 50 434 D 3 49 63 60 NOD
  • 53.B 55.7 74.0 20 0.20 0.588 50 434 D 4 38 NQD ND ND 53.B 55.7 74.0 20 0.20 O.SB8 50 434 E 1 ND 82 ND 81 50.1 55.8 69.B 20 0.20 0.5B8 50
  • 434 E 2 ND ND ND ND l 50.1 55.B 69.8 20 0.20 0.58B 50 434 E 3 ND ND NQD ND
  • 50.1 55.8 69.8 20 0.20 O.SBB 50 434 E 4 mm Bl NOD 75 l 50.1 55.8 69.B 20 0.20 0.58B 50 i !

Page 63 of 136

  • 16ADATA.4C4 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI MAI "p AS l'IAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

435 D ND 22 ND ND ' 50.3 50.9 75.0 20 0.20 0.588 60 435 D 2 ND ND ND ND l 50.3 50.9 75.0 20 0.20 0.588 60 435 D NGD NGD NGD NGD ' 50.3 50.9 75.0 20 0.20 0.588 60 *' 435 D 4 ND NGD ND ND l . . 50.3 50.9 75.0 20 0.20 0.58B 60 435 E 1 ND BB ND ND ' 49.3 52.9 68.5 63.5 63.5 20 0.20 0.5BB 60 435 E ., ND ND ND ND

  • 49.3 52.9 68.5 63.5 63.5 20 0.20 0.5BB 60 L 435 E "f ND ND ND ND ' 49.3 52.9 68.5 63.5 63.5 20 0.20 o:5B8 60 " 435 E 4 NGD 83 NGD 78 l 49.3 52.9 68.5 63.5 63.5 20 0.20 0.588 60 436 D 1 73 74 74 66 ' 77.5 78.1 93.2 20 0.20 0.58B 80 436 D 2 86 87 83 BS l 77.5 78.1 93.2 20 0.20 0.58B 80 436 D 3 85 7B 7B 83 l 77.5 78.1 93.2 20 0.20 0.588 80 436 D 4 77 73 78 7B
  • 77.5 7B.1 93.2 20 0.20 0.588 80 436 E 1 81 79 80 79 l 72.6 76.3 94.9 20 0.20 0.5B8 80 436 E 2 91 99 99 99 t 72.6 76.3 94.9 20 0.20 0.588 80 436 C' 3 72 74 71 74 l 72.6 76.3 94.9 20 0.20 0.588 80 .. 436 E 4 85 80 75 78
  • 72.6 76.3 94.9 20 0.20 0.5B8 80 437 D 1 71 63 64 65 ' 74.2 74.5 92.1 20 0.20 0.588 100 437 D 2 77 81 74 82
  • 74.2 74.5 92.1 20 0.20 0.5B8 100 437 D .. 83 80 80 78 ' 74.2 74.5 92.1 20 0.20 0.588 100 .) 437 D 4 67 71 72 76 ' 74.2 74.5 92.1 20 0.20 0.588 100 437 E 1 78 76 79 77 ' 71.2 . 74.0 89.9 20 0.20 0.5B8 100 437 E 2 69 63 NGD 99 ' 71.2 74.0 89.9 20 0.20 0.5B8 100 437 E 3 77 75 74 71
  • 71.2 74.0 89.9 20 0.20 0.5B8 100 437 E 4 73* 73 70 67
  • 71.2 74.0 89.9 20 0.20 0.5B8 100 ;::. 43B D 1 ND ND ND ND l 46.4 48.5 73.1 25 0.20 0.588 30 438 D 2 ND ND ND ND
  • 46.4 48.5 73.1 25. 0.20 0.588 30 438 D 3 ND ND ND ND
  • 46.4 48.5 73.1 25 0.20 0.5B8 30 438 D 4 ND ND ND NGD
  • 46.4 48.5 73.1 25 0.20 0.588 30 438 E 1 ND ND ND l 35.7 42.3 84.4 60.5 73.1 25 0.20 0.588 30 438 E 2 ND ND ND ND s 35.7 42.3 84.4 60.5 73.1 25 0.20 0.588 30 438 C' 3 ND tlD ND. ND l 35.7 42.3 84.4 60.5 73.1 25 0.20 0.588 .30 .. 438 E 4 ND ND ND NGD
  • 35.7 42.3 84.4 60.5 73.1 25 0.20 0.588 30 439 . D I ND ND ND ND l 22.S 23.1 61.7 49.B 53.5 25 0.20 0.588 20 .I. 439 D 2 ND ND ND ND s 22.5 23.1 61.7 49.8 53.5 25 0.20 0.588 20 439 II 3 ND ND ND ND ' 22.5 23.1 61.7 49.8 53.5 25 0.20 0.588 20 " 439 D 4 ND ND ND ND
  • 22.5 23.1 61.7 49*,9 53.5 25 0.20 0.588 20 439 E 1 ND ND ND ND
  • 17.6 21.0 51.5 39.3 39.6 25 0.20 0.588 20 439 E 2 ND ND ND ND
  • 17.6 21.0 51.5 39.3 39.6 25 0.20 0.598 20 439 E 3 ND ND ND ND
  • 17.6 21.0 51.5 39.3 39.6 25 0.20 0.588 20 439 E 4 ND ND ND ND
  • 17.6 21.0 51.5 39.3 39.6 25 0.20 0.588 20 440 D 1 ND ND ND ND ' 46.0 46.6 72.8 25 0.20 0.598 40 440 D 2 ND ND ND ND
  • 46.0 46.6 72.9 25 0.20 0.588 40 440 D 3 ND ND ND ND ' 46.0 46.6 72.8 25 0.20 0.588 40 440 fi, 4 ND ND ND ND
  • 46.0 46.6 72.8 25 0;20 0.588 40 440 E 1 ND ND ND ND
  • 40.2 51.8 86.1 66.6 72.9 25 0.20 0.588 40 440 E 2 ND ND ND
  • 40.2 51.8 86.l 66.6 72.9 25 0.20 0.588 40 440 E 3 ND ND ND ND ' 40.2 51.8 86.1 66.6 72.9 25 0.20 0.588 40 440 E 4 ND ND ND NGD
  • 40.2 51.B
  • 86.1 66.6 72.9 25 0.20 0.588 40 441 D ND ND ND ND ' 47.6 50.0 70.0 25 0.20 0.588 50 441 n 2 ND ND ND ND
  • 47.6 50.0 70.0 25 0.20 0.588 50 " "* .,. ND ND 47.6 70.0 25 0.20 0.588 i;. 441 D *' ND ND
  • 50.0 50 441 D 4 26 NGD ND ND
  • 47.6 50.0 70.0 25 0.20 0.588 so 441 E 1 ND ND ND ' 43.5 48.B 80.4 61.3 68.6 25 0.20 0.588 50 Page 64 of 136 IGADATA.4C4
    • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI 11AI MP AS HAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

441 E 2 ND ND ND ND l 43.5 48.8 80.4 61.3 68.6 25 0.20 0.588 50 441 E ,. tm ND ND ND i 43.5 48.8 80.4 61.3 68.6 25 0.20 0.588 50 .., 441 E 4 ND tlD ND NGD s 43.5 48.8 80.4 61.3 68.6 25 0.20 0.5BB 50 442 D 1 81 63 71 ND l 63.7 65.2 91.1 25 0.20 0.5B8 60 442 D ') 48 NGD NGD .ND s 63.7 65.2 91.1 25 0.20 0.5B8 60 L 442 D 3 89 93 92 89

  • 63.7 65.2 91.1 25 0.20 0.5BB 60 442 D 4 94 93 93 71 s 63.7 65.2 91.1 25 0.20 0.58B 60 442 E 1 74 75 75 74
  • 61.9 67.6 87.8 25 0.20 0.588 60 442 E ., 37 ND 38 ND
  • 61.9 67.6 87.B 25 0.20 0.588 60 i. 442 E ,. NGD NGD NGD NGD s 61.9 67.6 87.8 25 0.20 0.588 60 .., 442 E 4 tlGD 5B 60 SB s 61.9 67.6 87.8 25 0.20 0.5BB 60 443 D 1 76 Bl 74 81
  • B0.1 B2.9 100.0 25 0.20 O.SBB BO 443 D 2 87 89 B9 88 l 80.1 82.9 100.0 25 0.20 0.5BB BO 443 D 3 85 89 84 84.
  • 80.1 82.9 100.0 25 0.20 0.5BB 80 443 D 4 90 89 84 83
  • B0.1 82.9 100.0 25 0.20 O.SBB BO 443 E 1 84 83 84 83
  • 78.6 85.2 100.0 25 0.20 0.58B BO 443 E 2 91 90 97 92 s 78.6 85.2 100.0 25 0.20 0.588 BO 443 E .,. 80 81 79 BO s 78.6 85.2 100.0 25 0.20 0.588 80 .;, 443 E 4 77 80 76 77
  • 78.b 85.2 100.0 25 0.20 0.5BB so 444 D 1 81 80 85 87
  • 78.3 81.2 100.0 25 0.20 0.5BS 100 444 D 2 89 97 91 89 i 78.3 81.2 100.0 25 0.20 0.58B 100 444 D 3 89 85 95 88
  • 78.3 81.2 100.0 25 0.20 0.588 100 444 D 4 87 91 91 89
  • 78.3 81.2 100.0 25 0.20 0.5BB 100 444 E 1 89 87 89 87
  • 83.3 87.7 97.3 25 0.20 0.5BS 100 :. 444 E ') 93 81 98 99
  • 83.3 87.7 97.3 25 0.20 0.5BS 100 ... L 444 E 3. 85 B4 85 89
  • B3.3 B7.7 97.3 25 0.20 0.5BB 100 444 E 4 B2 B3 B3 B3 l 83.3 87.7 97.3 25 0.20 0.5BB 100 445 D 1 ND ND ND ND s 12.5 13.2 29.9 23.0 25.B 30 0.20 0.5BB 30 445 D ., ND ND-ND ND s 12.5 13.2 29.9 23.0 25.8 30 0.20 0.5BB 30 i. 445 D ,. ND ND ND ND
  • 12.5 13.2 29.9 23.0 25.B 30 0.20 0.5B8 30 .., 445 D 4 ND ND ND ND
  • 12.5 13.2 29.9 23.0 25.B 30 0.20 . 0.5BB 30 445 E 1 ND ND ND ND
  • 9.4 10.9 27.2 30 0.20 0.588 30 445 E 2 ND ND ND ND l 9.4 10.9 27.2 30 0.20 0,588 30 445 E 3 ND ND ND ND s 9.4 10.9 27.2 30 0.20 0.588 30 445 E 4 ND ND ND ND s 9.4 10.9 27.2 30 0.20 0.5BB 30 446 D 1 ND ND ND ND s 9.7 10.2 51.7 24.2 26.9 30 0.20 0.588 20 446 D 2 tlD ND ND ND
  • 9.7 10.2 51.7 24.2 26.9 30 0.20 0.588 20 446 D ,. ND ND ND ND
  • 9.7 10.2 51.7 24.2 26.9 30 0.20 0.5BB 20 .., 446 D 4 ND ND ND ND
  • 9.7 10.2 51. 7 24.2 26.9 30 0.20 0.588 20 446 E 1 ND ND ND ND
  • 8.1 10.2 21.3 17.2 17.2 30 0.20 0.588 20 446 E 2 HD ND tlD tlD l 8.1 10.2 21.3 17.2 17.2 30 0.20 0.588 20 446 E .,. .; ND ND ND ND s B.1 10.2 21.3 17.2 17.2 30 0.20 0.588 20 446 E 4 ND ND ND ND
  • B.1 10.2 21.3 17.2 17.2 30 0.20 0.588 20 447 c 4 l ND
  • s
  • 30 0.20 0.5BB 40 447 D 1 ND ND ND ND
  • 48.2 49.3 69.2 30 ' 0.20 0.588 40 447 D 2 ND ND ND ND
  • 48.2 49.3 69.2 30 0.20 0.58B 40 447 D 3 tm ND ND NGD
  • 48.2 49.3 69.2 30 0.20 0.588 40 447 D 4 ND ND ND ND l 48.2 49.3 69.2 30 0.20 0.588 40 447 E 1 ND ND ND ND
  • 40.4 44.4 78.2 56.0 62.5 30 0.20 0.588 40 447 E ., ND ND ND ND
  • 40.4 44.4 78.2 56.0 62.5 30 0.20 0.5BB 40 i.
  • 447 E 3 ND llD tlD ND
  • 40.4 44.4 78.2 56.0 62.5 30 0.20 0.588 40 447 E 4 ND ND ND ND
  • 40.4 44.4 78.2 56.0 62.5 30 0.20 0.58B 40 448 D 1 llD llD ND
  • 34.0 34.9 71.5 49.0 49.7 30 0.20 0.588 50 Page 65 of 136 IGADATA.4C4
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 Al llAI !IP AS llAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

448 D " ND ND ND ND

  • 34.0 34.9 71.5 49.0 49.7 30 0.20 0.588 50 '-448 D 3 ND ND ND ND
  • 34.0 34.9 71.5 49.0 49.7 30 0.20 0.588 50 448 D 4 ND ND ND ND
  • 34.0 34.9 71.5 49.0 49.7 30 0.20 0.588 50 448 E 1 ND ND ND ND
  • 34.1 38.0 63.1 47.3 49.7 30 0.20 0.588 50 448 E " ND ND ND ND
  • 34.1 38.0 63.1 47.3 49.7 30 0.20 0.588 50 J. 448 E 3 ND ND ND ND
  • 34.1 38.0 63.1 47.3 49.7 . 30 0.20 0.588 50 448 E 4 ND ND ND ND
  • 34.1 38.0 63.1 47.3 49.7 30 0.20 0.588 50 448 F 4 * *
  • ND
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  • 56.9 58.7 73.3 30 0.20 0.588 60 449 D 2 ND ND ND ND
  • 56.9 58.7 73.3 30 0.20 0.588 60 449 D 3 ND ND ND ND
  • 56.9 58.7 73.3 30 0.20 0.588 60 449 D 4 ND ND ND NIJD
  • 56.9 58.7 73.3 30 0.20 0.588 60 449 E 1 ND ND
  • ND ND
  • 54.2 57.0 BB.O 30 0.20 0.588 60 449 E 2 ND ND ND ND
  • 54.2 57.0 88.0 30 0.20 0.588 60 449 E 3 ND ND ND ND
  • 54.2 57.0 88.0 30 0.20 0.588 60 449 E ' ND ND ND ND
  • 54.2 57.0 88.0 30 0.20 0.588 60 450 D 1 89 86 86 90
  • 93.3 94.1 100.0 30 0.20 0.588 BO 450 D 2 97 94 99 99
  • 93.3 94.1 100.0 30 0.20 0.5BB BO 450 D 3 94 93 94 94
  • 93.3 94.1 100.0 30 0.20 0.588 BO 450 D 4 94 95 95 93
  • 93.3 94.1 100.0 30 0.20 0.5BB BO 450 E 1 81 B3 82 87
  • 90.5 92.3 .100.0 30 0.20 0.5BB 80 450 E 2 B4 83 90 89
  • 90.5 92.3 100.0 30 0.20 0.588 BO 450 E 3 BO 79 NOD 79
  • 90.5 92.3 100.0 30 0.20 0.588 BO 450 E 4 80 76 76 80
  • 90.5 92.3 100.0 30 0.20* 0.5BB BO *** 451 D 1 87 91 87 B7
  • 92.4 94.4 100.0 30 0.20 0.58B 100 ,, I\ 451 D 2 96 94 99 97
  • 92.4 94.4 100.0 30 0.20 0.5BB 100 451 D 3 91 95 94 94
  • 92.4 94.4 100.0 30 0.20 0.5B8 100 451 D 4 97 96 96 9B
  • 92.4 94.4 100.0 30 0.20 0.5BB 100 451 E 1 81 78 79 79
  • B9.3 92.B 99.2 30 . 0.20 0.5BB 100 451 E 2 NOD 82 B5 NOD
  • B9.3 92.B 99.2 30 0.20 0.588 100 451 E 3 69 65' 59 66
  • B9.3 92.B 99.2 30 0.20 0.588 100 451 E 4 68 64 61 60
  • B9.3 92.B 99.2 30 0.20 0.588 100 464 D ND ND ND ND
  • 12.4 13.4 19.9 0.20 0.588 30 464 0 . 2 17 21 18 ND
  • 12.4 13.4 19.9 0.20 0.588 30 464 D 3 ND ND ND ND
  • 12.4 13.4 19.9 0.20 0.58S 30 464 D 4 . 60 NOD 29 NOD
  • 12.4 13.4 19.9 0.20 0.588 30 464 E 1 ND ND ND ND
  • 15.6 15.8 23.2 0.20 0.588 30 464 E .. ND ND ND ND
  • 15.6 15.B 23.2 0.20 0.5BB 30 '-464 E 3 ND ND ND ND
  • 15.6 15.B 23.2 0.20 0.588 30 464 E 4 NIJD ND ND ND
  • 15.6 15.8 23.2 0.20 0.588 30 465 A 1 ND ND ND ND
  • 12.6 13.2 18.5 b 0.20 0.588 40 465 A 2 ND ND ND ND s 12.6 13.2 18.5 6 0.20 0.5B8 40 * , i; 'fVi,.1 A ND ND ND ND s 12.b 13.2 18.5 6 0.20 0.588 40 465 A 4 ND ND ND HD l 12.6 13.2 18.5 6 0.20 0.588 40 465 B NllD ND trn ND
  • 10.3 11.0 18.8 10 0.20 0.588 40 465 B " ND ND ND ND i 10.3 11.0 18,8 10 0.20 0.588 40 .:. 465 B 3 ND ND ND i 10.3 11.0 18.8 10 0.20 0.588 40 465 B 4 ND ND ND ND
  • 10.3 11.0 18.8 10 0.20 0.588 40 465 c ND ND ND ND i 11.5 13.0 19.5 16 0.20 0.588 40 465 c 2 ND ND ND ND
  • 11.5 13.0 19.5 16 0.20 0.588 40 465 3 ND ND ND i 11.5 13.0 19.5 16 0.20 0.588 40 :., L. 465 c 4 HD ND ND ND
  • 11.5 13.0 19.5 16 0.20 0.588 40 465 D ND ND ND 40 i 11.7 12.5 19.0 21 0.20 0.588 40

. . ..... Page 66 of 136 I6ADATA.4C4

  • ID DEF PRO EC:Tl EC:T2 ECT3 ECT4 ECT5 AI 11AI 11P AS 11AS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

465 D 2 ND 24 ND 13 t 11. 7 12.5 19.0 21 0.20 0.588 40 465 D 3 ND ND ND ND

  • 11.7 12.5 19.0 21 0.20 0.588 40 465 D 4 NQD ND NGD ND
  • 11. 7 12.5 19.0 21 0.20 0.588 40 465 E 1 ND ND ND ND
  • 12.5 13.5 23.3 4 0.20 0.588 40 465 E 2 ND ND ND ND
  • 12.5 13.5 23.3 4 0.20 0.588 40 465 E 3 ND ND ND ND t 12.5 13.5 23.3 4 0.20 0.588 40 465 E 4 NOD ND NOD ND
  • 12.5 13.5 23.3 4 0.20 0.588 40 466 D 1 ND ND ND ND
  • 16.7 16.9 20.1 ---0.20 0.588 20 466 D 2 ND NGD ND ND
  • 16.7 16.9 20.1 ---0.20 0.588 20 466 D 3 ND ND ND ND
  • 16.7 16.9 20.1 ---0.20 O.S88 20 466 D 4 NOD NOD 29 18
  • 16.7 16.9 20.1 ---. 0.20 0.588 20 466 E 1 ND ND ND INC
  • 17.3 17.6 21.0 ---0.20 0.588 20 466 E 2 ND ND ND ND
  • 17.3 17.6 21.0 ---. 0.20 0.588 20 466 E 3 ND ND ND ND
  • 17.3 17.6 21.0 ---0.20 O.SBB 20 466 E 4 NGD NOD NOD ND
  • 17.3 17.6 21.0 ---0.20 0.588 20 467 A 1 37 29 19 2S
  • 36.2 36.6 46.2 6 0.20 0.588 50 467 A 2 ND 17 35 B
  • 36.2 36.6 46.2 6 0.20 0.588 50 467 A 3 33 9 25 22
  • 36.2 36.6 46.2 6 0.20 0.588 50 467 A* 4 61 33 51 54 t 36.2 36.6 46.2 6 0.20 0.588 50 467 B 1 34 29 2S 27
  • 38.6 39.7 60.4 10 0.20 O.SBB so 467 B 2 53 S9 so 36
  • 38.6 39.7 60.4 10 0.20 0.588 50 467 B 3 6 58 9 18
  • 38.6 39.7 60.4 10 0.20 0.588 50 467 B 4 59 67 NOD 54
  • 38.6 39.7 60.4 10 0.20 0.588 50 467 c 1 28 17 24 29
  • 38.1 38.6 s1 .0 4 0.20 O.SBB so '. .* 467 c 2 42 . . 27 43 44
  • 38.1 38.6 S7.8 4 0.20 0.588 50 467 c 3 31 39 32 33
  • 38.1 38.6 57.B 4 0.20 O.SBB so 467 c 4 40 30 21 .20
  • 38.1 38.6 S7.B 4 0.20 O.S88 50 467 D 1 31 16 16 ND
  • 40.6 41.1 54.9 21 0.20 O.SBB 50 467 D 2 28 ND 32 17
  • 40.6 41.1 S4.9 21 0.20 0.588 50 467 D 3 4S 16 40 40
  • 40.6 41.1 S4.9 21 0.20 0.588 50 467 D 4 45 13 12 NGD
  • 40.6 41.1 54.9 21 0.20 0.588 50 467 E 1 28 14 27 34
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  • 43.0 43.4 S8.4 15 0.20 0.588 50 .. 467 E 3 31 12 31 33
  • 43.0 43.4 S8.4 15 0.20 O.S8B 50 467 E 4 78 24 24 24
  • 43.0 43.4 58.4 15 0.20 0.588 50 468 D 1 28 34 34 *
  • 43.6 43.8 50.6 ---0.20 0.588 60 468 D 2 37 36 42 39
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  • 4S.2 45.3 50.4 ---0.20 0.588 . 60 468 E " 33 34 41 41
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  • 17.2 18.1 24.2 ---0.20 0.588 80 469 D 2 ND 23 34 NGD ** 17.2 18.1 24.2 . ---0.20 0.588 BO m D 3 ND ND ND ND
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  • 43.4 44.0 57.0 ---0.20 0.58B 100 4i0 D 2 35 36 36 45 ' 43.4 44.0 57.0 ---0.20 0.5BB 100 Page 67 of 136 I6ADATA.4C4 I ;. ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI "AI "p AS "AS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------. 470 D 3 35 41 35 44 s 43.4 44.0 57.0 0.20 0.588 100 470 D 4 38 45 49 39
  • 43.4 44.0 57.0 0.20 0.588 100 470 E 1 47 42 38 44 s 54.9 55.8 66.3 0.20 0.588 100 470 E 2 68 56 57 63 s 54.9 55.8 66.3 0.20 0.588 100 470 E 3 47 63 63 64 s 54.9 55.8 66.3 0.20 0.588 100 470 E 4 50 61 58 58 s 54.9 55.8 66.3 0.20 0.588 100 471 D 1 ND ND ND ND s 11.5 11.9 18.8 0.20 0.588 30 471 D 2 ND ND ND ND s . 11.5 11.9 18.8 0.20 0.588 30 471 D 3 ND ND ND ND s 11.5 11.9 18.8 0.20 0.588 30 471 D 4 NOD NOD NOD NOD s 11.5 11.9 18.8 0.20 0,500 30 471 E 1 ND ND ND 40 s 12.7 14.4 20.1 0.20 0.588 30 471 E 2 ND ND ND ND
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  • 23.2 24.0 39.9 0.20 0.588 50 474 E 3 ND ND tlD ND
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  • 11.5 11.7 17.5 0.20 0.588 60 475 E 1 INC ND ND ND
  • 13.7 13.8 18.7 0.20 0.588 60 475 E 2 ND ND ND ND s 13.7 13.8 18.7 0.20 0.588 60 475 E ., ND ND ND ND
  • 13.7 13.8 18.7 0.20 0.588 60 " 475 E 4 tlGD ND NQD NGO
  • 13.7 13.8 18.7 0.20 0.588 60 47b D 1 5 22 17 17
  • 18.6 19.1 25.5 o.io 0.588 BO 476 0 2 ND
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  • 18.6 19.1 25.5 0.20 0.588 80 i. 47b E 1 36 35 16 12
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  • 24.6 26.2 38.6 0.20 0.588 80 476 E 3 27 31 29 24 i 24.6 26.2 38.6 0.20 0.588 BO

68 --i36 *--** ......... . i I I6ADATA.4C4

    • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI llAI llP AS llAS DENT AXIAL CIRC DEPTH 476 E 4 39 36 36 23 ' 24.6 26.2 38.6 ---0.20 0.588 BO 477 D 1 76 76 75 78
  • 77.8 78.1 84.1 ---0.20 0.588 100 477 D ., 72 68 73 72
  • 77.B 78.1 84.1 ---0.20 0.588 100 L 477 D 3 69 70 71 74
  • 77.8 78.1 84.1 ---0.20 0.588 100 477 D 4 69 72 72 74
  • 77.B 78.1 84.1 ---0.20 o.588 100 477 E 1 85 78 79 79
  • 79.2 80.6 87.5 ---0.20 0.588 100 477 E 2 77 75 77 83
  • 79.2 80.6 97;5 ---0.20 0.588 100 477 E 3 74 76 77 76
  • 79.2 80.6 87.5 ---0.20 0.588 100 . 477 E 4 77 77 77 77
  • 79.2 80.6 87.5 ---0.20 0.588 . 100 480 D 1 35 34 35 34 * ---0.20 1.763 40 480 D 2 34 35 31 34 * ---0.20 1.763 40 480 D 3 37 39 38 37 t ---0.20 1.763 40 480 D 4 44 42 45 45 * ---0.20 1.763 40 480 E 1 37 36 38 37 * ---0.20 2.355 40 480 E 2 48 51 54 49 * ---0.20 2.355 40 480 E 3 45 45 45 45 * ---0.20 2.355 40 480 E 4 48 50 51 53 * ---0.20 2.355 40 481 D 1 27 31 40 29 l ---0.20 0.460 40 481 D 2 37 32 37 37 * ---0.20 0.460 40 481 D 3 39 37 38 42 * ---0.20 0.460 40 481 D 4 45 49 45 43 * ---0.20 0.460 40 481 E 1 42 44 42 36 * ---0.20 0.588 40 481 E -i-41 40 46 23 * ---0.20 0.588 40 481 E 3 33 38 41 40 * ---0.20 0.588 40 * **** 481 E 4 61 60 51 58 * ---0.20 o.588 40 482 D 1 ND ND ND ND * ---0.20 0.070 40 482 D 2 ND ND ND ND t ---0.20 0.070 40 482 D 3 ND ND ND ND * ---0.20 0.070 40 482 D 4 NGD ND NGD ND * ---0.20 0.070 40 482 E 1 ND ND ND ND * ---0.20 0.130. 40 482 E 2 ND ND ND ND * ---0.20 . 0.130 40 482 E -r l ND ., ND ND ---0.20 0.130 40 482 E 4 ND ND ND ND l ---0.20 0.130 40 483 D 1 16 17 22 21 * ---0.20 0.588 40 463 D 2 25 38 43 45 * ---0.20 0.588 40 483 D 7 23 17 16 18. * ---0.20 0.588 40 ., 483 D 4 34 48 45 46 * ---0.20 0.588 40 483 E 1 ND 28 ND 16 * ---0.30 0.588 40 483 E 2 5 12 12 16 * ---0.30 0.588 40 483 E 3 8 1 15 NOD * ---0.30 0.588 40 483 E 4 NOD 34 NOD 58 * ---0.30 0.588 40 **

Page 69 of 136 ** CIRDATA.4C4 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH lDEPTH ----------------------------------------------------------------------------------------------- 205 A 1 99 99 99 99

  • 0.375 .008 0.049 100 205 A 2 98 . 98 98 98
  • 0.375 .008 0.049 100 205 A 3 98 99 99 99
  • 0.375 .008 0.049 100 205 A 4 99 95 99 99
  • 0.375 .000 0.049 100 205 B 1 60 47 59 59
  • 0.375 .007 0.028 60 205 B 2 59 62 65 65
  • 0.375 .007 0.028 60 205 B 3 74 Bl 47 41
  • 0.375 .007 0.02B 60 205 B 4 59 63 4B 66
  • 0.375 .007 0.02B 60 205 c 1 69 69 74 67
  • 0.375 .007 0.038 80 205 c 2 81 81 79 7B
  • 0.375 .007 0.038 BO 205 c 3 45 76 73 BO t 0.375 .007 0.03B BO 205 c 4 73 6B 69 63
  • 0.375 .007 0.038 BO 205 D 1 24 9 NQD NQD
  • 0.375 .006 0.019 40 205 D 2 ND ND ND ND : 0.375 .006 0.019 40 205 D 3 ND Bl 51 55
  • 0.375 .006 0.019 40 205 D 4
  • ND ND ND NQD
  • 0.375 .006 0.019 40 205 E 1 13 4 12 5
  • 0.375 .006 0.022 45 205 E 2 ND ND ND ND
  • 0.375 .006 0.022 45 205 E 3 ND ND ND ND
  • 0.375 .006 0.022 45 205 E 4 ND ND 5 NQD
  • 0.375 .006 0.022 45 205 F 1 ND ND ND .ND
  • 0.375 .006 0.010 20 205 f 2 ND
  • ND ND
  • o.:m ----;006 0.010 20 205 F 3 INC ND ND ND t 0.375 .006 0.010 20 205 F 4 ND ND ND ND
  • 0.375 .006 0.010 20 (. 209 A 1 5 5 NQD NOD
  • o.:m .006 O.OlB 3B 209 A 2 79 NOD NOD ND
  • 0.375 .006 O.OlB 3B 209 A 3 34 6B BB ND
  • 0.375 .006 O.O!B 3B 209 A 4 ND NOD NOD 29
  • 0.375 .006 0.018 3B 209 B 1 ND ND ND ND
  • 10 0.375 .006 0.020 42 209 B 2 ND ND ND ND
  • 10 0.375 .006 0.020 42 209 B 3 ND ND ND ND
  • 10 0.375 .006 0.020 42 209 B 4 41 37 35 38
  • 10 0.375 .006 0.020 42 209 c 1 ND ND ND ND
  • 9 0.375 .006 0.017 35 209 c 2 ND ND ND ND
  • 9 0.375. .006 0.017 35 209 c 3 ND. ND ND ND
  • 9 0.375 .006 0.017 35 209 c 4 27 27 14 26
  • 9 o.:m .006 0.017 35 209 D 1 ND ND ND ND
  • 6 0.375 .006 O.OlB 3B 209 D 2 ND ND ND ND
  • 6 0.375 .006 O.OlB 3B 209 D 3 ND ND ND ND
  • 6 0.375 .006 0.018 38 209 . D 4 1B 36 34 40
  • 6 0.375 .006 0.018 38 209 E 1 NOD NOD NQD NOD
  • 4 0.375 .006 0.020 42 209 E 2 ND ND ND ND
  • 4 0.375 .006 0.020 42 209 E 3 ND ND ND ND
  • 4 0.375 .006 0.020 42 209 E 4 ND ND 61 ND
  • 4 0.375 .006 0.020 42 209 F 1 NOD NOD NOD NOD
  • 2 0.375 .006 0.017 35 209 F 2 ND ND ND ND
  • 2 0.375 .006 0.017 35 209 F 3 ND ND ND ND
  • 2 0.375 .006 0.017 35 209 F 4 33 ND NOD 42
  • 2 0.3751 .006 0.017 35 210 A 1 81 74 68 76
  • 0.375 .006 0.025 52 210 A 2 56 50 47 64 0.375 .006 0.025 52 ;,. 210 A 3 70 62 70 80 0.375 .006 0.025 52 210 A 4 70 71 45 54 0.375 .006 0.025 52 210 B 1 rmD NOD NOD NOD 10 0.375 .006 0.025 52
  • page 70 of l36. ** CIRDATA.4C4 ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH 210 B 2 ND ND ND ND
  • 10 0.375 .006 0.025 52 210 B 3 ND ND ND ND
  • 10 o.:m .006 0.025 52 210* B 4 41 27 60 40
  • 10 0.375 .006 0.025 52 210 c 1 59 5B 71 NQD t B 0.375 .006 0.025 52 210 c 2 51 45 69 53 t B 0.375 .006 0.025 52 210 c 3 45 35 40 45 t B 0.375 .006 0.025 52 210 c 4 37 39 59 56 t B 0.375 .006 0.025 52 210 D 1 33 34 2B NQD t 6 0.375 .006 0.025 52 210 D 2 52 61 53 53
  • 6 0.375 .006 0.025 52 210 D 3 51 54 57 67
  • 6 0.375 .006 0.025 52 210 D 4 39 65 57 NllD
  • 6 0.375 .006 0.025 52 210 E 1 97 BO 95 B9 t 4 0.375 .006 0.026 54 210 E 2 71 69 54 47
  • 4 0.375 .006 0.026 54 210 E 3 79 B9 99 73
  • 4 0.375 .006 0.026 54 210 E 4 NQD NGD B5 75
  • 4 0.375 .006 0.026 54 210 F 1 67 57 54 46
  • 2 0.375 .006 0.027 56 210 F 2 60 54 66 52
  • 2 0.375 .006 0.027 56 210 F 3 69 58 49 64
  • 2 0.375 .006 0.027 56 210 F 4 66 69 61 64
  • 2 o.:m .006 0.027 56 211 A 1 INC
  • 69 69 69
  • 0.375 .006 0.030 63 211 A 2 71 7B 74 7B .. 0.375 .006 0.030 63 211 A 3 76 76 67 62
  • 0.375 .006 0.030 63 211 A 4 68 72. 74 76
  • 0.375 .006 0.030 63 211 B 1 46 B5 B2 64
  • 10 0.375 .006 0.030 63
  • 211 B 2 72 NllD NGD NllD
  • 10 0.375 63 .* .006 0.030 211 B 3 94 93 94 9B
  • 10 0.375 .006 0.030 63 211 B 4 BO 77 B2 Bl
  • 10 0.375 .006 0.030 63 211 c 1 B3 7B BS Bl
  • B 0.375 .006 0.030 63 211 c 2 67 92 NllD 99
  • B 0.375 .006 . 0.030 63 211 c 3 B9 BB 90 92
  • 8 0.375 .006 0.030 63 211 c 4 80 79 B6 83
  • 8 0.375 .006 0.030 63 211 D 1 66 64 63 67
  • 6 o.:m ,006 0.032 67 211 D ., SB B9 9B 92
  • 6 0.375 ,006 0.032 67 .. 211 D 3 B6 8B 87 BB
  • 6 0.375 .006 0.032 67 211 D 4 B7 B4 B9 B5
  • 6 0.375 .006 0.032 67 211 E 1 7B 78 74 77
  • 4 0.375 .006 0.031 65 211 E 2 79 92 89 89
  • 4 0.375 .006 0.031 65 211 E 3 B9 B7 91 90
  • 4 0.375 .006 . 0.031 65 211 E 4 B9 BB B7 85
  • 4 0.375 .006 o.o:n 65 211 F 1 67 71 69 72
  • 3 0.375 .006 0.034 71 211 F 2 90 85 79 B7
  • 3 0.375 .006 0.034 71 211 F T B4 B9 79 B7 t 3 0.375 .006 0.034 71 *. 211 F 4 B9 es 93 B9
  • 3 0.375 .006 0.034 71 212 A 100 100 100 100
  • 0.375 .006 0.049 100 212 A ., 99 99 99 99
  • 0.375 .006 0.049 100 .. 212 A 3 99 99 99 99
  • 0.375 .006 0.049 100 212 A 4 99 99 93 96
  • 0.375 .006 0.049 100 212 B 1 100 100 100 99
  • 11 0.375 .096 0.049 100 212 B 2 99 9B 98 99 t 11 0.375 .006 0.049 100 212 B 3 99 99 99 99
  • 11 0.375 .006 0.049 100 .. '
  • 212 B 4 100 99 99 99
  • 11 0.375 .006 0.049 100 212 c 1 99 99 99 99
  • B 0.375 .006 0.049 100 212 c 2 9B 98 97 9B
  • B 0.375 .006 0.049 100 Page 71 of 136 *
  • CIRDATA.4C4 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH lDEPTH -----------------------------------------------------------------------------------------------

212 c 3 99 98 99 99

  • 8 0.375 .006 0.049 100 212 c 4 99 99 99 99
  • 8 0.375 .006 0.049 100 212 D 1 99 99 99 99
  • 6 0.375 .006 . 0.049 100 212 D 2 98 99 99 99
  • 6 o.:m .006 0.049 100 212 D 3 95 98 99 99
  • 6 0,375* .006 0.049 100 212 D 4 99 100 99 99
  • 6 0.375 .006 0.049 100 212 E 1 100 99 100 99
  • 4 0.375 .006 0.049 100 212 E 2 98 99 98 98
  • 4 o.:m .006 0.049 100 212 E 3 99 99 99 99
  • 4 0.375 .006 0.049 100 212 E 4 99 100 99 99
  • 4 0.375 .006 0.049 100 212 F 1 99 99 99 99
  • 2 o.:m .006 0.049 100 212 F 2 99 99 99 99
  • 2 0.375 .006 0.049 100 212 F 3 95 99 99 91
  • 2 0.375 .006 0.049 100 212 F 4 100 100 96 DD i ., 0.375 .006 0.049 100 11 .. .. ,, * . ' ! .,

Page 72 of 136 WASOATA.rn

  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH

168 A 53 65 55 63

  • 0.110 0.110 0.029 60 168 A 'l 56 62 63 55
  • 0 .11(1 0.110 0.029 60 L 168 A 3 59 62 59 62 t 0.110 (i.110 0.029 60 168 A 4 55 56 56 55 t 0.110 0.110 0.029 60 168 B 1 30 50 17 51
  • 2 0.110 0.110 0.029 60 .168 B 'l NGD 33 40 21 t 2 0.110 0.110 0.029 60 L 168 B ' 34 NllD 49 52 t 2 0.110 0.110 0.029 60 168 B 4 48 46 44 43 t 2 0.110 0.110 0.029 60 168 ' c 1 18 43 NllD. 41 t 4 0.110 0.110 0.030 63 168 c 2 NGO NGO 4 NGD
  • 4 0.110 0.110 0.030 63 168 c .,. 33 NllD 22 47 t 4 0.110 0.110 0.03(1 63 ..; 168 c 4 48 47 47 47 t 4 0.110 0.110 0.030 63 168 D 34 40 NGD 26 6 0.110 0.110 0.030 -63 168 D 2 NGO NQD NGD NGO i 6 0.110 0.110 0.030 63 168 D 'T 41 10 NGD 47 t 6 0.110 0.110 0.030 63 -* 168 D 4 3B 32 32 35 t 6 0.110 0.110 0.030 63 168 E 1 47 NGO NllD 29 t B 0.110 0.110 0.030 63 168 E 2 NGD NGD NGD NGD ! 8 0.110 0.030. c.:-168 E 3 41 27 6 47
  • 8 0.110 0.110 0.030 63 168 E 4 23 16 16 12 t 8 0.110 0.110 0.030 63 168 F 1 49 32 17 35 t 10 0.110 . 0.110 0.028 58 168 F 'l NQD 17 26 NllD t 10 0.110 0.110 0.028 58 L 168 F 3 48 2B 15 42
  • 10 0.110 0.110 0.028 58 168 F 4 26 19 10 21 t 10 0.110 0.110 0.028 58 ,,. 169 A 7B 65 59 70
  • 0.109 0.109 0.028 SB ;* l, 169 A 'l 70 69 71 70 t 0.109 0.109 0.028 SB L 169 A 3 86 63 BO 7B t 0.109 0.109 0.028 SB 169 A 4 79 BO 80 79 t 0.109 0.109 0.02B 58 169 B 1 96 94 95 95
  • 2 0.109 0.109 0.029 60 169 B ., 85 92 91 87 t 2 0.109 0.109 0.029 60 L 169 B 3 95 98 93 93
  • 2 0.109 0.109 0.029 60 169 B 4 . 93 93 94 93 t 2 0.109 0.109 0.029 60 169 c 96 98 90 97
  • 4 0.109 0.109 0.028 SB 169 c ., 93 96 96 91
  • 4 0.109 0.109 0.028 58 t. 169 c 3 97 93 97 97 ' 4 0.109 0.109 0.028 58 169 c 4 91 90 90 90
  • 4 0.109 0.109 0.028 58 169 D 1 77 86 79 BB
  • 6 0.109 0.109 . 0.029 60 169 D 2 96 95 94 B5
  • 6 0.109 0.109 0.029 60 169 D 3 92 92 97 95 ' 6 0.109 0.109 0.029 60 169 D 4 88 B6 86 81
  • 6 0.109 0.109 0.029 60 169 E 1 86 86 92 94 t 7 0.109 0.109 0.028 SB 169 E 2 94 B9 86 85
  • 7 0.109 0.109 0.028 58 169 E 3 90 95 94 97 7 0.109 0.109 0.028 58 169 E 4 B2 Bl 86 84
  • 7 0.109 0.109 0.028 58 169 F 1 76 74 78 75
  • 10 0.109 0.109 0.028 58 169 F 2 76 75 75 75
  • 10 0.109 0.109 0.028 58 169 F 3 Bl 82 79 90
  • 10 0.109 0.109 (l,028 SB 169 F 4 63 70 61 70
  • 10 0.109 0.109 0.02B 58 170 A 1 67 80 Bl BO t 0.109 0.109 0.029 59 170 A ., 65 66 64 68
  • 0.109 0.109 0.029 59 L j. 170 A 3 82 7i 82 B2
  • 0.109 0.109 0.029 59 170 A 4 72 72 73 72
  • 0.109 0.109 0.029 59 170 B iS 81 78 81 * ., 0.109 0.109 0.029 59 L Page 73 of 136 WASDATA.8Xl
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH I.DEPTH -----------------------------------------------------------------------------------------------

170 B 2 65 64 66 66 l 2 0.109 0.109 0.029 59 170 B 3 80 80 81 80 i 2 0.109 0.109 0.029 59 170 B 4 72 72 70 70 i 2 0.109 0.109 0.029 59 170 c 71 73 52 .NQD 4 0.109 0.109 0.029 59 170 c 'l 63 62 62 63 4 0.109 0.109 0.029 59 ,_ 170 c 3 82 81 79 82 4 0.109 0.109 0.029 59 170 c 4 69 67 67 71

  • 4 0.109 0.109 0.029 59 170 D 1 98 80 39 NGD t 6 0.109 0.109 0.029 59 170 D 2 66 69 65 65
  • 6 0.109 0.109 0.029 59 170 D 3 76 74 78 79 i 6 0.109 0.109 0.029 59 170 D 4 70 63 71 67 i 6 0.109 0.109 0.029 59 170 E 1 77 NGD 82 68 t 8 0.109 0.109 0.029 59 170 E 2 69 56 *70 71 i 8 0.109 0.109 0.029 59 170 E 3 78 77 78 77 i 8 0.109 0.109 0.029 59 170 E 4 61 76 75 76 t 8 0.109 0.109 0.029 59 170 F 78 65 77 70 t 10 0.109 0.109 0.029 59 170 F 'l 65 i 59 63 t 10 0.109 0.109 0.029 59 ,_ 171) F 3 84 80 as 85 ! 10 0.109 O.i09 0.(i29 59 170 F 4 69 74 74 73 t 10 0.109 0.109 0.029 59 178 A 1 99 98 97 99 i 0.050 0.050 0.049 100 178 A 2 95 90 99 90 i 0.050 0.050 (1.049 100 178 A 3 95 90 97 94 i 0.050 0.050 0.049 100 178 A 4 99 95 96 98 t 0.050 0.050 0.049 100 178 B 1 72 72 70 70 i 0.075 0.075 0.037 BO
  • 178 B 2 81 80 83 78 i 0.075 0.075 0.037 80 \ 178 B 3 98 71 71 69 i 0.075 0.075 0.037 80 178 B 4 .79 75 78 73
  • 0.075 0.075 o.o:n 80 178 c 1 72 74 72 65
  • 0.110 0.110 0.027 59 178 c 2 70 83 66 67 i 0.110 o.rro 0.027 59 178 c 3 62 53 58 62 i 0.110 0.110 0.027 59 178 c 4 60 59 59 65
  • 0.110 0.110 0.027 59 178 D 1 34 48 32 51 i 0.190 0.190 0.018 39 178 D 2 52 57 41 68
  • 0.190 0.190 0.018 39 178 D 3 32 49 57 51
  • 0.190 0.190 0.018 39 178 D 4 55 51 49 51 i 0.190 0.190 0.018 39 178 E 1 NGD 6 NGD 4
  • 0.190 0.190 0.009 20 178 E 2 35 19 7 12
  • 0.190 0.190 0.009 20 178 E 3 3 19 26 17
  • 0.190 0.190 0.009 20 178 E 4 69 NGD 24 NGD ' 0.190 0.190 0.009 20 302 A 1 76 62 69 70
  • 2 0.196 .688 0.038 78 302 A 2 80 78 79 63 * ., 0.196 .688 0.038 78 ;. 302 A 3 83 81 82 76
  • 2 0.196 .688 0.038 78 302 A 4 86 85 86 83
  • 2 0.196 .688 0.038 78 302 B 1 69 62 65 68
  • 2 0.196 .750 0.030 61 302 B 2 67 69 70 59
  • 2 0.196 .750 0.030 61 302 B 3 80 78 77 77
  • 2 0.196 .750 0.030 61 302 B 4 78 79 79 77
  • 2 0.196 .750 (1.030 61 302 c 1 52 52 so 50
  • 2 0.196 1.500 0.017 35 302 c ., 70 67 79 46 i ., 0.196 1.500 O.Oi7 35 i. ;. 302 c 3 63 59 63 66 i 2 0.196 1.500 0.017 35
  • 302 c 4 61 62 61 62
  • 2 0.196 1.500 0.017 35 302 D 1 41 29 35 37
  • 2 0.196 .688 0.010 20 302 D 2 NGO 21 15 20 * 'l 0.196 .688 0.010 20 ..

Page 74 of 136 WASDATA.BXl

  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH 7.DEPTH -----------------------------------------------------------------------------------------------

302 D 3 10 6 46 14 2 0.196 .688 0.010 20 302 D 4 22 22 22 22 l 2 0.196 .688 0.010 20 303 A 1 86 . 89 89 90

  • 2 0.588 .813 0.036 .73 303 A 'l 82 82 84 81
  • 2 0.588 .813 0.036 73 4 303 A 3 90 88 78 89 l 2 0.588 .813 0.036 73 303 A 4 82 86 86 87 l ., 0.588 .813 0.036 73. 4 303 B 1 71 70 69 74 l 2 0.588 .688 0.028 57 303 B 2 67 66 78 66 l 2 0.588 .688 0.028 57 303 B 3 79 78 39 79 l ,, 0.588 .688 0.028 57 i. 303 B 4 74 76 76 75 l 2 0.588 .688 0.028 57 303 c 1 67 8 12 47 t 2 0.588 .688 0.018 37 303 c 'l 65 61 64 67
  • 2 0.588 .688 0.018 37 .. 303 c 3 60 51 41 . 57 2 0.588 .* 688 0.018 37 303 c 4 67 54 55 63 2 0.588 .688 0.018 37 303 D 1 33 37 43 59 2 0.588 .813 0.015 31 303 D 2 64 61 64 61 2 0.588 .813 0.015 31 303 D 3 52 55 24 47 2 0.588 .813 0.015 31 303 D 4 60 57 59 59 2 0.588 .813 0.015 31 306 A 1 88 76 79 76 4 0.196 .688 0.040 82 306 A 2 BO 81 84 86 4 0.196 .688 0.040 82 306 A 3 82 80 80 78 4 0.196 .688 0.040 82 306. A 4 75 76 76 78 l 4 0.196 .688 0.040 82 306 B 1 68 57 53 58 t 4 0.196 .750 0.029 59 306 B 2 44 65 65 73
  • 4 0.196 .750 0.029 59 ** 306 B 3 b4 64 64 64 t 4 0.196 .750 0.029 59 :i" \ 306 B 4 57 58 58 62
  • 4 0.196 .750 0.029 59. 306 c 1 38 42 39 31
  • 4 0.196 1.063 0.018 37 306 c 2 45 46 49 60
  • 4 0.196 1.063 0.018 37 306 c .) 44 45 49 47 t 4 0.196 1.063 0.018 37 306 c . 4 49 36 47 52
  • 4 0.196 1.063 0.018 37 306 D 1 NGD NGD 21 NGD l 4 0.196 .563 0.011 22 306 D 2 NGD NGO NGD NGD t 4 0.196 .563 0.011 22 306 D 3 NGD 15 10 18 l 4 0.196 .563 0.011 22 306 D 4 46 47 25 12 t 4 0.196 .563 0.011 22 307 A 1 78 72 84 66 t 4 0.588 .813 0.035 71 307 A ., 80 77 78 72 t 4 0.588 .813 0.035 71 .. 307 A 3 83 68 80 69 t 4 0.588 .813 0.035 71 307 A 4 81 BO 80 80 t 4 0.588 .813 0.035 71 307 B 1 81 50 64 46
  • 4 0.588 .750 0.028 57 307 B 2 65 65 64 61
  • 4 0.588 .750 0.028 57 307 B .., 51 49 68 52 l 4 0.588 .750 0.028 57 ,, 307 B 4 66 71 69 68
  • 4 0.588 .750 0.028 57 307 c 1 64 47 41 25
  • 4 0.588 .750 0.019 39 307 c 2 70 59 44 62
  • 4 0.588 ;750 0.019 39 307 c 3 38 23 49 4(1
  • 4 0.588 .750 0.019 39 307 c 4 33 44 Si 56 4 0.588 .750 0.019 39 307 D 1 68 24 38 27 t 4 0.588 .813 0.015 31 307 D ., 67 83 59 64 ' 4 0.588 .813 0.015 31 l. 307 D .., 22 29 34 19 t 4 0.588 .813 0.015 31 -* 307 D 4 38 36 18 40 t 4 0.588 .813 0.015 31
  • 310 A 1 86 78 93 84 8 0.196 .813 0.039 80 310 A 2 81 80 81 61 8 0.196 ,813 0.039 80 310 A 3 89 83 88 8 0.196 .813 0.039 80 ., I I Page 75 of 136 WA5DATA.8Xl
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH 7.DEPTH -----------------------------------------------------------------------------------------------

310 A 4 Bb Bb 87 82 i 8 0.196 .813 0.039 BO 310 B 1 93 65 82 66

  • 8 0.196 .750 0.029 59 310 B 2 46 65 69 55 i B 0.19b .750 0.029 59 310 B 3 75 75 76 76
  • B 0.196 .750 0.029 59 310 B 4 73 72 74 72 ' B 0.19b .750 0.029 59 310 c 1 95 55 78 57
  • 8 0.196 .750 0.019 39 310 c 'l 40 53 63 44 i 8 0.196 .750 0.019 39 L 310 c 3 67 67 67 66 i 8 0.196 .750 0.019 39 310 c 4 61 56 57 48 i 8 0.196 .750 0.019 39 310 D 1 NIID 6 12 5 i 8 0.196 .688 0.010 20 310 D 'l NIID NIID NIID 29
  • 8 0.196 .688 0.010 20 L 310 D 3 NQD NIID NIID NGD i 8 0.196 .688 0.010 20 310 D 4 9 2 NGD NGD i 8 0.196 .b8B 0.01(1 20 311 A 1 73 76 68 78 i 8 0.588 .750 0.038 78 311 A 2 75 69 68 63
  • 8 0.588 .750 0.038 78 311 A "f 51 83 82 68 i 8 0.588 .750 0.038 78 *.J 311 A 4 70 71 71 72 i 8 0.588 .750 0.038 78 311 B 1 65 62 59 64
  • 8 0.588 .750 0.030 61 311 B 2 61 59 53 48
  • 8 0.588 .750 0.030 61 311 B "f 68 67 66 50
  • 8 0.588 .750 0.030 61 " 311" B 4 56 58 56 59
  • 8 0.588 .750 0.030 61 311 c 1 49 50 50 50
  • 8 0.588 .750 0.021 43 311 c " 41 45 52 48
  • 8 0.588 .750 0.021 43 ;. 311 c 3 51 56 53 46 i 8 0.588 .750 0.021 43 ,.:. 311 c 4 44 42 42 43 i 8 0.588 .750 0.021 . 43 '. ' 0.016 33 311 D 1 32 39 43 39 i 8 0,588 .813 311 D 2 41 40 46 50
  • 8 0.588 .813 0.016 33 311 D 3 38 44 42 43 a 8 0.588 .813 0.016 33 311 D 4 39 38 38 42
  • 8 0.588 .813 0.016 33 314 A 1 89 97 92 99
  • 10 0.196 .688 0.038 77 314 A 2 77 78 77 75 i 10 0.196 .688 0.038 77 314 A 3 86 87 86 84 i 10 0.196 .688 0.038 77 314 A 4 84 81 83 76
  • 10 0.196 .688 0.038 77 314 B 1 94 81 97 49
  • 10 0.196 .750 0.031 63 314 B 2 46 70 b9 71
  • 10 0.196 .750 0.031 63 314 B "f 80 79 79 79
  • 10 0.196 .750 0.031 63 ,. 314 B 4 73 73 76 71 i 10 0.196 .750 0.031 63 314 c 1 NGD 55 39 40
  • 10 0.196 .813 0.020 41 314 c 2 50 51 51 51 ' 10 0.196 .813 0.020 41 314 c ;) 67 67 b7 62
  • 10 0.196 .813 0.020 41 314 ,.. 4 52 50 52 37
  • 10 0.196 .813 0.020 41 i., 314 D 1 NUD 54 57 51
  • 10 0.196 .813 0,012 20
  • 314 D 2 NIID NGD 39 61
  • 10 0.196 ,813 0.012 20 314 D ., 67 68 64 49
  • 10 0.196 .813 0.012 20 314 D 4 '70 NGD NGD 43
  • 10 0.196 .813 0.012 20 315 A 1 76 66 91 62
  • 10 0.588 1.000 0.039 80 . 315 A 2 79 73 ib 81
  • 10 0.588 1.000 0.039 BO . 315 A ., 83 78 82 81 l 10 0.588 1.000 0.039 80 *-' 315 A 4 84 84 85 87
  • 10 0.588 1.000 0.039 BO 315 B 1 SB 28 88 47
  • 10 0.588 .813 0.029 59 315 B " 55 59 55 56
  • 10 0.588 .813 1).029 59 *** L 315 B 3 62 63 65 64
  • 10 0.588 .813 0.029 59 315 B 4 66 65 67 66
  • 10 0.588 .813 0.029 59 Page 76 of 136 WASDATA.8X1
      • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH ZDEPTH -----------------------------------------------------------------------------------------------

315 r 1 47 28 34 30

  • 10 0.588 .875 0.020 41 w 315 c 2 . 46 49 44 46
  • 10 0.588 .875 0.020 41 315 c 3 50 55 . 54 54 l 10 0.588 .875 0.020 41 315 c 4 54 52 53 53 l 10 0.588 .875. 0.020 41 315 D 1 33 53 28 18
  • 10 0.588 .688 0.016 33 315 D 2 34 33 39 44
  • 10 0.588 .688 0.016 33 315 D ,) 46 44 44 47
  • 10 0.588 .688 0.016 33 315 D 4 49 40 37 37
  • 10 0.588 .688 0.016 33 317 A 83 35 61 72
  • 2 0.078 0.078 0.038 76 317 A 2 87 81 75 89
  • 2 0.078 0.078 0.038 76 317 A 3 91 87 86 88 t 2 0.078 0.078 0.038 76 317 A 4 86 88 87 87
  • 2 0.078 0.078 0.038 76 317 B 1 76 71 75 BO
  • 4 0.078 0.078 0.040 80 317 B " 83 74 80 85 t 4 0.078 . 0.078 0.040 80 ;. 317 B 3 87 87 86 89 t 4 0.078 0.078 0.040 80 317 B 4 Bl 85 85 87 t 4 0.078 0.078 0.040 80 317 c 1 72 67 60 73
  • 8 0.078 i).078 0.040 80 317 c ., 77 86 69 80
  • 8 0.078 (i,078 0.040 80. l. 317 c 3 BO 79 79 85
  • B 0.(178 0.078 0.040 80 317 c 4 85 85 83 80 t 8 0.078 0.078 0.040 80 317 D 1 66 28 23 34
  • 10 0.078 0.078 0,032 64 317 D 2 37 51 56 62 t 10 0.078 0.078 0.032 64 317 D 3 NQD NQD NQD 37 10 0.078 0.078 0.032 64 317 [) 4 74 77 81 78 ' 10 0.07B 0.07B 0.032 64 1 ** 319 A 1 NQD NQD NQD NDD t 4 0.190 0.190 *0.012 25 \. 319 A 2 NQ!l ND NQD NQD t 4 0.190 0.190 0.012 25 319 A 3 32 NDD 34 NQD t 4 0.190 0.190 0.012 25 319 A. 4 NQD NOil NQD NQD
  • 4 0.190 0.190 0.012 25 319 B 1 ND NQD NQD NBD t 5 0.190 0.190 0.014 29 319 B 2 NGD Nil NDD ND
  • 5 0.190 0.190 0.014 29 319 B ,) NGD NDD NQD NQD t 5 0.190 0.190 0.014 29 319 B 4 NGD NGO NGD NGO t 5 0.190 0.190 0.014 29 319 c ND Nil ND ND
  • 9 0.19(1 0.190 0.013 27 -319 r 2 NO ND ND ND
  • 9 0.190 0.190 0.013 27 ... 319 c . 3 NOD ND ND NDD
  • 9 0.190 0.190 (l.013 27 319 c 4 NQD NGD NQD Nil t 9 0.190 0.190 0.013 27 319 D 1 ND ND ND ND t 11 0.190 0.190 0.012 25 319 D 2 ND ND NGO ND l 11 0.190 0.190 0.012 25 319 D 3 ND ND ND ND ' 11 0.!'10 0.190 0.012 25 319 D 4 ND ND ND ND t I' .1 0.190 0.190 0.012 25 320 A 1 67 85 67 P,j
  • 2 O.OBO 0.080 0.040 83 320 A 2 46 75 81 91 t 2 0.080 0.080 0.040 83 320 A 3 90 74 90 93 t 2 0.080 0.080 0.040 83 320 A 4 33 57 35 85
  • 2 0.080 0.080 0.040 83 320 B NGD 74 52 72
  • 5 *O.OBO (i.080 0.040 83 320 B 2 NGD 20 51 80
  • 5 0.080 0.080 0.040 83 320 B 3 78 70 BO 84
  • 5 0.080 O.OBO 0.040 83 320 B 4 N@ 3 1 47 l 5 0.080 . 0.080 0.040 R. _,) 320 " 44 2B 51 40
  • 8 (i,080 0.080 0.038 79 " .,,, " 2 52 18 45 tmD
  • 8 0.080 (),(180 0.038 79 .);.!,I "' :.:. 32(1 c 31 62 30 69 l B 0.080 0.080 0.036 79 320 r-. 35 2 23 16
  • 8 0.080 (1.080 0.038 79 " 320 n BO NGD 43 39 10 tJ.080 0.080 (1,036 75 Page 77 of 136 WASDATA.BXl
  • ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AHAL DEPTH '.4DEPTH -----------------------------------------------------------------------------------------------

j" 320 D 2 57 16 54 27

  • 10 0.080 (1,080 (i,036 75 320 D 3 NQii 57 NGD 62 l 10 O.OBO 0.080 0.036 75 320 D 4 66 31 62 44
  • 10 0.080 0.080 0.036 . 75 369 A 1 NGD NGO NGD NGD l 10 0.078 0.078 0.040 80 369 A 2 NQD 39 31 48
  • 10 0.07B 0.07B 0.040 BO 369 A . .., NGD NGD NQD 31 l 10 0.07B 0.078 0.040 80 .,) 369 A 4 49 47 43 41 l 10 0.07B 0.078 0.040 BO 369 B 1 NGD NGD Nllli NQD
  • 10 0.109 0.109 0.03(1 60 369 B 2 NGD NGD NGD 42
  • 10 0.109 0.109 0.030 60 369 B .., NGO NQD 31 NQD l 10 0.109 0.109 0.030 60 .,) 369 B 4 63 52 52 NQD
  • 10 0.109 0.109 0.030 60 369 c 1 NGD NGD NGD NGD
  • 10 0.187 0.187 0.020 40 369 c ., NGD NGD NGD NGD
  • 10 0.187 0.187 0.020 40 .l. 369 c 3 NQD NGO NGD l 10 0.187 0.187 0.020 40 369 c 4 NGD NQD NQD N!lD l 10 0.187 0.187 0.020 40 369 D 1 ND ND ND ND
  • 10 0.187 0.187 0.015 30 369 D 2 ND NGD ND ND
  • 10 0.187 0.187 0.015 30 369 D 3
  • NQD NGD NGD NGD
  • 10 0.187 0.187 i).015 30 369 D 4 NGD NGD NGD NQD
  • 10 0.187 0.187 0.015 30 369 E 1 ND ND ND ND
  • 10 o.ooo i).000 o.ooo 0 369 E 2 ND ND ND ND
  • 10 o.ooo 0.000 0.000 0 369 E 3 ND ND ND ND
  • 10 o.ooo o.ooo o.ooo 0 369 E 4 ND ND ND ND
  • 10 o.ooo 0.000 0.000 0. 370 A 1 62 NGD 23 NOD ' 15 0.078 0.078 o.o4o 80 ... 370 A 2 5 NOD NGD 35 ' 15 0.078 0.078 0.040 BO 370 A 3 BO 42 NGO NQD
  • 15 0.078 0.078 0.040 80 370 A 4 NGD NGD NGD NGD ' 15 0.078 0.078 0.040 80 370 B 1 78 NOD NGD NOD ' 15 0.109 0.109 0.030 60 370 B 2 NOD NGD NOD NGD ' 15 0.109 0.109 0.030 60 370 B 3 67 23 NGO NGD ' 15 0.109 0.109 0.030 60 :no B 4 NGD NGD NGO NGD
  • 15 0.109 *0.109 0.030 60 370 c 1 NOD NOD NGD NGD ' 15 0.187 0.101 0.020 40 370 c 2 NGD NGD ND ND
  • 15 0.187 0.187 0.020 40 370 c 3 NGD NGD NGD ND
  • 15 0.187 0.1B7 0.020 40 370 c 4 NOD NGD NGD NGD ' 15 0.187 0.187 0.020 40 370 D 1 ND ND ND ND
  • 15 0.187 0.187 0.015 30 370 D 2 ND ND ND ND ' 15 0.187 0.187 0.015 30 370 D 3 ND ND NGO ND
  • 15 0.187 0.187 0.015 30 370 D 4 NGD NGD NGD NGD ' 15 0.187 0.187 0.015 30 370 E 1 ND ND ND ND
  • 15 o.ooo o.ooo 0.000 0 370 E 2 ND ND
  • ND
  • 15 o.ooo 0.000 0.000 0 370 E 3 ND ND ND ND
  • 15 o.ooo 0.000 0.000 0 370 E 4 ND ND ND ND ' 15 o.ooo o.ooo o.ooo 0 371 A 1 B6 NGD NGD NGD
  • 20 0.078 0.078 0.040 80 ;m A 2 NOD NGO NGD ' 20 0.078 0.078 0.040 80 371 A ,. NGD 44 30 NOD
  • 20 0.078 0.078 0.040 80 .,) 371 A 4 7b 82 84 73
  • 20 0.078 0.078 0.040 BO 371 B 1 NGD NGD NGD NGD
  • 20 0.109 0.109 0.030 60 :m B ., NGD NGD NOD ND
  • 20 0.109 0.109 0.030 60 L 371 B 3 NGD NGO NGD NGO ' 20 0.109 0.109 0.030 60
  • 371 B 4 56 60 74 69 ' 20 0.109 0.109 0.030 60 371 c 1 ND NGD NGD NGD
  • 20 0.187 0.187 0.020 40 371 c 2 ND NGD NQD ND
  • 20 0.187 0.187 0.020 40 Page 78 of 136 WASDATA.BU
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

371 c ' NGD NGD NGD NGO

  • 20 0.187 0.187 0.020 40 ,. 371 .c 4 NGD NGD NGD NGD t 20 0.187 0.187 0.020 40 371 D 1 ND N.D ND ND l 20 0.187 0.187 0.015 30 371 D 2 ND ND ND ND t 20 0.187 0.187 0.015 30 371 D ,) ND ND ND ND t 20 0.187 0.187 0.015 30 371 D 4 ND ND ND ND
  • 20 0.187 0.187 0.015 30 371 t. 1 ND ND ND ND
  • 20 o.ooo 0.000 0.000 0 371 E 2 ND ND ND ND
  • 20 o.ooo 0.000 0.000 0 371 E 3 ND ND ND ND
  • 20 0.000 0.000 0.000 0 371 E 4 ND ND ND ND l 20 o.ooo 0.000 0.000 *o 372 A 1 ND NGD NGD NGD
  • 25 0.078 0.078 0.040 BO 372 A ., ND Nb NGD ND
  • 25 0.078 0.078 0.040 BO L 372 A 3 NGD NGD NGD NGD t 25 0.078 0.07B 0.040 BO 372 A 4 NGD NGD NGD NQD t 25 0.078 0.078 0.040 80 372 B 1 ND NQD NGD NGD t 25 0.109 0.109 0.030 60 372 B ') ND ND NGO ND t 25 0.109 0.109 0.030 60 L 372 B 3 NQD NQD NGD NGO t 25 0.109 0.109 0.030 60 372 B 4 NGD NGD NQD NQD g 25 0.109 0.109 0.030 1>0 372 c 1 ND NGD ND NGD
  • 25 0.187 0.187 (i.020 40 372 c 2 ND ND ND ND t 25 0.187 0.187 0.020 40 372 c 3 ND NGD ND ND t 25 0.187 0.187 0.020 40 372 c 4 NGD NGD NQD NGO t 25 0.187 0.187 0.020 40 372 D 1 ND ND ND ND
  • 25 0.187 0.187 0.015 30 372 0 2 ND ND ND ND
  • 25 0.187 0.187 0.015 30
  • 372 D ND ND ND ND
  • 25 0.187 0.187 0.015 30 * .. ( ,) 372 D 4 ND ND ND ND t 25 0.187 0.187 0.015 30 372 E 1 ND ND ND ND
  • 25 o.ooo 0.000 0.000 0 372 E 2 ND ND ND ND t 25 o.ooo 0.000 o.ooo 0 372 E 3 ND ND . ND ND t 25 o.ooo 0.000 0.000 0 372 E 4 ND ND ND ND t 25 o.ooo 0.000 0.000 0 373 A 1 NGD NGD ND NGD t 30 0.07B 0.078 0.040 80 373 A 2 ND ND ND ND
  • 30 0.07B 0.078 0.040 80 373 A 3 NGD NGD NGD NGD.
  • 30 0.078 0.07B 0.040 80 373 A 4 NGD NGD NGD NGD t 30 0.078 0.078 0.040 80 373 B 1 ND NGD NGD NGD t 30 0.109 0.109 0.030 60 373 B . 2 ND ND ND ND t 30 0.109 0.109 0.030 60 373 B 3 NGD NGD NGD NGD t 30 0.109 0.109 0.030 60 373 B 4 NGD NGD NGD NGD t 30 0.109 0.109 0.030 60 373 c 1 ND ND ND ND
  • 30 0.187 0.187 0.020 40 373 c 2 ND ND ND ND t . 30 0.187 0.187 0.020 40 373 c 3 ND ND ND ND
  • 30 0.187 0;187 0.020 40 373 c 4 NGD NGD NGD NGD t 30 0.187 0.187 0.020 40 373 D 1 ND ND ND ND t 30 0.187 0.187 0.015 30 373 D 2 ND ND ND ND t 30 0.18i 0.187 0.015 30 373 D 3 ND ND ND ND s 30 0.187 0.187 0.015 30 373 D 4 ND ND ND ND
  • 30 0.187 0.187 0.015 30 373 E 1 ND ND ND ND
  • 30 o.ooo 0.000 o.ooo 0 373 E 2 ND ND ND ND
  • 30 o.ooo 0.000 o.ooo 0 .. ._\,",) E ,) ND ND ND ND
  • 30 o.ooo 0.000 0.000 0 373 E 4 ND ND ND ND t 30 o.ooo 0.000 0.000 0 ** . ' i
    • ,'!.--- ..... \ ** IGADATA.BXl ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 382 D 382 D 382 D 382 D 382 E 382 E 382 E 382. E 383 D 383 D 3B3 D 3B3 D 383 E 383 E 383 E 383 E 384 D 384 D 384 D *394 D 384 E 384 E 384 E 384 E 385 D 385 0 385 D 385 D 385 E 385 E 385 E 385 E 386 D 386 D 386 0 386 D 386 E 386 E 386 E 386 E 387 D 387 D 387 D 387 D 387 E 387 E 387 E 387 E 388 D 388 [) 388 D 388 0 388 E 2 3 4 1 2 7 *' 4 2 3 4 1 2 3 4 1 2 3 4 2 3 4 2 3 4 1 2 3 4 2 3 4 1 2 3 4 1 2 ,) 4 1 2 .,, *' 4 1 2 3 4 1 t NQD NGD NQD
  • NGD 64 89 ND ND ND ND ND ND ND .ND 15 35 24 25 46 . 59 . 41 55 16 26 32 24 41 50 51 67 16 NGD 32 NGD 49 57 60 76 24 42 34 21 47 62 56 62 81 77 85 79 85 NQD NGD NGD NGD 72 79 49 89 ND ND ND ND ND NO ND ND 13 27 27 30 45 46 41 53 15 29 38 28 48 46 51 63 13 19 31 26 44 55 51 42 25 40 39 31' 44 60 56 43 82 77 84 90 83 NQD NQD NQD NQD 75 NGD 56 89 ND ND ND ND ND ND ND ND 15 'l' .. o 24 28 39 49 41 56 20 31 33 24 44 47 36 64 19 11 31 14 46 64 60 57 26 42 32 33 46 62 55 47 71 79 86 79 Bl NGD NGD NQD NGD 7B NGD 54 92 ND ND ND ND ND ND ND ND 17 29 27 29 62 29 46 57 NGD 18 35 25 73 27
  • 60 29 21 37 NGD 56 34 51 44 29 34 39 33 47 42 59 46 76 79 Bo 82 B2 l
  • t t t t t l a t t i t t ; t t t t t
  • t *
  • 52 l l * * *
  • t * *
  • t t l t i t
  • t AI 30.8 30.8 ,30.8 30.8 2b.2 26.2 26.2 26.2 11. 5 11.5 11.5 11.5 11.B 11.B 11.8 11.8 =*1.8 51.8 51.8 51.8 46.3 46.3 46.3 46.3 52.1 52.1 52.1 52.1 45.B 45.8 45.8 45.B 52.B 52.B 52.B 52.B 50.4 50.4 50.4 50.4 57.9 57.9 57.9 57.9 54.9 54 .9 54.9 54.9 91.2 91.2 91.2 91.2 92.2 MAI 31.5 31.5 31. 5 31.5 33.3 33.3 33.3 33.3 12.1 12.1 12.1 12.1 14.2 14.2 14.2 14.2 53.(l 53.0 53.0 53.0 53.3 53.3 53.3 53.3 52.3 52.3 52.3 52.3 50.4 50.4 50.4 50.4 53.3 . 53.3 53.3 53.3 55.6 55.6 55.6 55.6 5B.9 58.9 5B.9 58.9 60.0 60.0 60.0 60.0 91.4 91.4 91.4 91.4 9B.4 MP 77.6 77 .6 77.6 77.6 58.6 58.6 5B.6 5B.6 26.1 26.1 26.1 26.1 24.2 24.2 24.2 24.2 78.2 78.2 7B.2 78.2 71.5 71.5 71.5 71.5 73.7 73.7 73.7 73.7 60.5 60.5 60.5 60.5 75.4 75.4 75.4 75.4 67.6 67.6 67.6 67.6 90.6 90.6 90.6 90.6 78.2 78.2 7B.2 78.2 99.6 99.6 99.6 99.6 100.0 AS 4:;,,3 45.3 45.3 45.3 5(1.2 50.2 50.2 50.2 Page 79 of 136 MAS DENT 47.3 47.3 47.3 47.3 50.2 50.2 50.2 50.2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 AXIAL 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 1).20 0.20 0.20 (1,20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 CIRC DEPTH 0.588 0.58B 0.5BB 0.5B8 0.5BB 0.5BB 0.58B 0.588 0.5B8 0.58B 0.5BB 0.5BB 0.5B8 0.588 0.588 0.58B 0.5BB 0.588 0.5BB 0.58B 0.5B8 0.58B 0.5BB 0.5B8 0.5B8 0.588 0.588 0.5B8 0.58B 0.588 0.588 0.58B 0.58B 0.588 0.5BB 0.589 0.588 0.588 0.58B 0.588 0.58B 0.58B 0.588 0.5B8 0.588 0.5B8 0.5BB 0.588 0.5B8 0.588 O.SBB 0.588 0.58B 30 30 30 30 30 30 30 30 20 20 20 20 20 20 20 20 40 40 40 40 40 40 40 40 50 50 50 50 50 50 50 50 60 60 60 60 60 60 60 60 BO 80 BO BO BO 80 80 BO 100 100 100 100 100 Page 80 of 136
  • IGADA TA . 8X1 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI MAI MP AS HAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

388 E " B5 BS B5 B5

  • 92.2 9B.4 100.0 2 0.20 (l,5BB 100 i. 388 E 3 89 89 90 90
  • 92.2 98.4 100.0 2 (i.20 0.58B 100 388 E 4 B5 93 87 BB
  • 92.2 98.4 100.0 2 0.20 0.588 100 389 D t NGD 53 NGD NGD * . 43.3 43.9 79.2 59.0 59.2 4 0.20 0.588 30 389 D NGD NGD Nim NGD
  • 43.3 43.9 79.2 59.0 59.2 4 0.20 0.588 30 J.. 389 D 3 5 6 8 18
  • 43.3 43.9 79.2 59.0 59.2 4 0.20 0.588 30 389 D 4 NGD 15 15 65 l 43.3 43.9 79.2 59.0 59.2 4 0.20 O.SBB 30 389 E 1 INC NGD INC INC
  • 32.4 41.2 62.6 4 0.20 0.598 30 389 E INC NGD INC INC
  • 32.4 41.2 62.6 4 0.20 0.588 30 .L 389 E ".! INC INC INC INC
  • 32.4 41.2 62.6 4 0.20 0.588 30 "' 389 E 4 INC INC INC 4
  • 32.4 41.2 62.6 4 0.20 0.588 30 390 D 1 ND NGD ND ND l 21.5 22.3 63.0 39.4 40.9 4 0.20 0.588 20 390 D 2 NGD NGD NGD NGD l 21.5 22.3 63.0 39.4 40.9 4 0.20 0.588 20 390 D 3 NQD NGD NQD NGO t 21.5 22.3 63.0 39.4 40.9 4 0.20 0.588 20
  • 390 D 4 NGD ND ND ND
  • 21.5 22.3 63.0 39.4 40.9 4 0.20 0.588 20 390 E 1 ND ND ND ND
  • 18.1 22.1 51.3 36.9 37.7 4 0.20 0.588 20 390 E 2 NGD ND ND ND l 18.1 22.1 51.3 36.9 37. 7 4 0.20 0.588 20 390 E 3 NGD NGD NGD tmD i 18.1 22.1 51.3 36.9 37.7 4 0.20 0.588 20 390 E 4 NGD HD ND ND
  • 18.1 22.1 51.3 36.9 37. 7 4 0.20 0.588 20 391 D 1 7 2 NGD 16 t 43.9 44.9 85.4 60.5 61.9 4 0.20 0.588 40 391 D 2 23 NGD NGD 28
  • 43.9 44.9 85.4 60.5 61.9 4 0.20 0.588 40 391 D "f NGD-----30 21 NGD
  • 43.9 44.9 85.4 60.5 61.9 4 0.20 0.588 40 " 391 D 4 29 23 29 21 t 43.9 44.9 85.4 60.5 61.9 4 0.20 0.588 40 391 E 1 61 65 62 62
  • 41.9 47.6 69.B 57.7 57 .7 4 0.20 0.588 40 , ... 391 E 2 68 68 64 66
  • 41.9 47.6 69.8 57.7 57.7 4 0.20 0.588 40 'i 391 E 3 69 68 65 61 t 41.9 47.6 69.8 57.7 57.7 4 0.20 0.588 40 391 E 4 73 62 73 72 t 41.9 47.6 69.8 57. 7 57.7 4 0.20 0.588 40 392 D 1 NGD NGD 34 NGD l 45.6 45.8 77.6 4 0.20 0.588 50 392 D 2 NGD 15 NGD NGD l 45.6 45.B 77.6 4 0.20 0.588 50 392 D 3 11 . 11 25 l 45.6 45.B 77.6 4 0.20 0.588 50 392 D 4 NGD 19 15
  • 45.6 45.B 77.6 4 0.20 0.588 50 392 E 1 69 61 6(1 55
  • 44.3 51.3 69.7 61.1 61.1 4 0.20 0.588 50 392 E ') 53 65 52 43
  • 44.3 51.3 69.7 61.1 61.1 4 0.20 0.588 50 ;.. 392 E 3 76 73 73 74 t 44.3 51.3 69.7 61.1 61.1 4 0.20 0.588 50 392 E 4 70 91 69 66 l 44.3 51.3 69.7 61.1 61.1 4 0.20 0.588 50 393 D 1 35 32 39 39
  • 53.9 56.0 81. 5 64.7 64. 7 4 0.20 0.588 60 393 D 2 NGD 35 40 40 t 53.9 56.0 81.5 64.7 64.7 4 0.20 0.588 60 393 D 3 42 39 43 50 l 53.9 56.0 81.5 64.7 64.7 4 0.20 0.588 60 393 D 4 40 35 48 43
  • 53.9 56.0 81. 5 64.7 64.7 4 0.20 0.588 60 393 E 1 62 61 66 65 t 54.2 60.4 73.6 4 0.20 0.588 60 393 E 2 55 54 60 56
  • 54.2 60.4 73.6 4 0.20 0.588. 60 393 E 3 61 60 61 76 l 54.2 60.4 73.6 4 0.20 0.588 60 393 E 4 69 63 70 66
  • 54.2 60.4 73.6 4 0.20 0.588 60 394 D 1 30 NGO 27 16
  • 58.2 59.B 91.3 4 0.20 0.588 80 394 D 2 NGD NGO 33 36
  • 58.2 59.8 91.3 4 0.20 0.58B BO 394 D ,) 36 37 37 40 t 58.2 59.8 91.3 4 0.20 0.588 80 394 !) 4 32 30 30 29
  • 58.2 59.8 91.3 4 0.20 0.588 BO 394 E 1 62 59 64 55
  • 48.0 57.0 73.5 4 0.20 0.588 80 394 E, 2 NGD 74 53 42
  • 48.0 57.0 73.5 4 0.20 0.588 80 394 E 3 62 62 65 60
  • 48.0 57.0 73.5 4 0.20 0.588 BO :. 394 E 4 51 50 53 50
  • 48.0 57.0 73.5 4 0.20 0.588 80 ,. 395 D 1 60 62 61 55
  • 82.0 B3.6 100.0 4 0.20 0.588 100 395 D 2 BO 87 85 83
  • 82.0 83.6 100.0 4 0.20 0.588 100
  • c*
  • Page 81 of 136 IGADATA.BXl ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI !'IA! l!P AS llAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

395 D 395 D 395 E 395 E 395 E 395 E 396 D 396 D 396 D 396 D 396 E 396 E 396 E 396 E 397 D 397 D 397 D 397 397 D E 397 E 397 E 397 E 398 D 39B D 398 D 398 D 398 E 398 E 398 E 398 E 399 D 399 D 399 D 399 D 399 E 399 E 399 E 399 E 400 D 400 D 400 D 400 D 400 E 400 E 400 E 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 ,. ,. 4 1 2 3 4 1 2 3 4 1 2 3 400 401 401 401 401 401 401 401 E 4 D 1 D , 2 D \ 3 D 4 E 1 E 2 E 3 76 BO 66 BB B6 84 NGD NGO 16 NGO 59 NGO 71 44 NGO NGO 2 ND 69 NGD NGD ND ND ND ND . ND ND ND NGD ND 2 14 39 38 53 49 81 61 23 47 28 10 53 49 65 33 75 71 78 84 71 72 78 77 76 67 B7 86 B5 NGD NGD 12 5 64 66 67 . 54 NGD NOD 12 NGO 61 40 59 79 ND ND ND ND ND NGD NOD ND 44 NGD 37 13 74 52 82 69 lB 34 29 9 51 58 65 37 62 79 80 82 70 73 7B 76 76 6B 89 85 85 NGD NGO 9 NGO 61 53 71 53 NOD NGO 11. NQD 78 NQD NGD Bl ND NGD ND ND ND ND HGD ND 26 25 38 43 60 55 80 71 13 36 "Q .1., 14 64 55 66 44 82 71 78 84 74 66 78 74 76 65 87 85 84 6 23 20 NGD 61 40 61 53 NGD *NGO 6 NGD 82 51 59 82 ND NGD ND ND ND ND NQD ND NGD 29 46 36 68 37 78 68 NGO 28 26 15 71 31 59 . 41 77 84 77 83 72 76 79 t t

  • t t t t t t t
  • t * . t t t t t t l t t t t t t t t t
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  • *
  • i ' Page 82 ?f 136 ISADATA.BXl ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI tlAI !'IP AS MAS DENT AXIAL *CIRC DEPTH 401 E 402 D 402 i! 402 D 402 D 402 E 402 E 402 E 402 E 403 D 403 D 403 D 403 D 403 E 403 E 403 E 403 E 404 D 404 D 404 D 404 D 404 E 404 E 404 E 404 E 405 D 405 D 405 D 405 D 405 E 405 E 405 E 405 E 406 D 406 D 406 D 406 D 406 E 406 E 406 E 406 E 407 D 407 D 407 D 407 D 407 E 407 E 407 E 407 E 408 D 408 D 408 D 408 D 4 2 3 4 2 3 4 1 2 3 4 1 2 3 4 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 79 43 73. 55 56 68 73 71 73 ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND NGD NGD 21 4. 65 64 67 85 16 52 40 43 73 NGD B6 79 26 59 37 43 73 B5 78 79 82 77 83 85 BO BO 83 72 68 59 61 62 64 54 54 56 53 61 57 69 BO 79 71 67 72 74 73 71 77 70 69 ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND
  • ND ND ND ND NGO .NGD NGD NGD 37 9 NGD 23 NGD NGD NGD NGD 76 73 73 62. NGD 35 67 "67 70 85 84 84 13 2 NGO NGD 21 35 37 39 37 40 51 54 67 67 69 72 73 72 B4 84 BO 76 BO Bl . 1B 25 5 30 42 46 46 2B 21 37 51 52 6B 68 69 76 72 63 86 B3 81 7B 79 75 75 82 81 Bl 77 76 83 83 BB 79 82 74 * * * * *
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  • 70.2 73.0 73.0 73.0 73.0 76.2 76.2 76.2 76.2 13.5 13.5 13.5 13.5 11. 7 11. 7 11.7 11. 7 16.1 16.1 16.1 16.1 15.9 15.9 15.9 15.9 49.5 49.5 49.5 49.5 36.6 36.6 36.6 36.6 59.8 59.B 59.B 59.B 49.0 49.0 49.0 49.0 63.0 63.0 63.0 63.0 50.6 50.6 50.6 50.6 91.6 91.6 91.6 91.6 77.3 74.0 74.0 74.0 74.0 81.5 81.5 81.5 81.5 14.4 14.4 14.4 14.4 14.0 14.0 14.0 14.0 16.4 16.4 16.4 16.4 19.7 19.7 19.7 19.7 50.8 50.8 50.B 50.8 46.B 46.8 46.8 46.B 61.7 61.7 61.7 61. 7 57.3 57.3 57.3 57.3 64.6 64.6 64.6 64.6 59.0 59.0 59.0 59.0 92.2 92.2 92.2 92.2 92.8 99.6 99.6 99.6 99.6 94.6 94.6 94.6 94.6 48.0 4B.O 4B.O 4B.O 33.1 33.1 33.1 33.1 59.2 59.2 59.2 59.2 52.3 52.3 52.3 52.3 84.1 B4.1 B4.1 B4.1 65.3 65.3 65.3* 65.3 90.8 90.B 90.B 90.B 74.B 74.B 74.8 74.8 BB.8 BB.B 88.8 8B.8 72.6 72.6 72.6 72.6 100.0 100.0 100.0 100.0 26.7 26.7 26.7 26.7 21.7 21. 7 21. 7 21. 7 33.4 33.4 33.4 33.4 37.2 37.2 37.2 37.2 28.6 28.6 28.6 28.6 24.3 24.3 24.3 24.3 34.3 34.3 34.3 34.3 37.3 37.3 37.3 37.3 6 6 6 6 6 6 6 6 6 8 8 8 8 8 8 B 8 8 8 B 8 B 8 B 8 8 B 8 8 B B 8 a B 8 B 8 B 8 8 8 8 B 8 B B B 8 8 8 B B 8 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.5BB 0.20 0.588 0.20 0.588 0.20 0.5BB 0.20 0.588 0.20 0.5B8 0.20 0.588 0.20 0.5B8 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.5B8 0.20 0.588 0.20 (l.588 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.588 0.20-----0.588 0.20 0.588 0.20 o.s00 0.20 0.58B 0.20 0.5BB 0.20 0.588 0.20 0.588 0.20 0.588 0.29 0.58B 0.20 0.58B 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.5B8 0.20 0.5BB 0.20 0.58B 0.20 0.588 0.20 0.588 0.20 0.588 0.20 (l.588 0.20 0.588 0.20 0.5B8 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.588 0.20 0.588 80 100 100 100 100 100 100 100 100 30 30 30 30 30 30 3-0 30 20 . 20 20 20 20 20 20 20 40 40 40 4(1 40 40 40 40 50 5Ci 50 50 50 50 50 50 60 b{i 60 60 60 60 Ht . 60 80 BO ao Page 83 of 136 ** IGADATA.8X1 ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI MAI HP AS l'IAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

408 E 69 70 77 73

  • 76.1 83.9 92.6 B 0.20 0.588 BO 408 E 'l 75 . 74 75 69
  • ib.1 83.9 92.6 8 0.20 0.588 BO .l. 408 E 82 82 83 85 i 76.1 83.9 92.6 8 0.20 0.588 BO ,. 408 E 4 84 84 79 84 i 76.1 B3.9 92.6 8 0.20 0.5BB BO 409 D 1 84 BB 87 59 i 92.7 92.9 100.0 B 0.20 0.5BB 100 409 D 2 83 86 B9 89
  • 92.7 92.9 100.0 8 0.20 0.5BB 100 409 D 3 BB BB BB BB
  • 92.7 92.9 100.0 B 0.20 0.588 100 409 D 4 86 88 90 90 l 92.7 92.9 100.0 8 0.20 0.588 100 409 E 1 81 82 Bl 79 l 81.0 8B.9 100.0 8 0.20 0.5BB 100 409 E 2 84 81 82 B6 l 81.0 88.9 100.0 B 0.20 0.588 100 409 t:. 3 BB BB 8B 86 l 81.0 B8.9 100.0 B 0.20 0.5BB 100 409 E 4 84 B5 86 B7 l 81.0 88.9 100.0 B 0.20 0.588 100 410 D 1 NilD NQD NQD NGD l 30.2 31.3 69.7 51.0 51.B 10 0.20 0.588 30 410 D 2 NQD NQD NQD NQD ' 30.2 31.3 69.7 51.0 51.8 10 0.20 0.588 30 410 D ,) NIID NIID 21 24
  • 30.2 31.3 69.7 51.0 51.B 10 0.20 0.588' 30 410 D 4 NIID ND NIID NIID i 30.2 31.3 69.7 51.0 51.8 10 0.20 0.588 ' 30 410 t ND ND ND ND i 24.B 'l ,j..,,L 00.1 47.0 48.4 10 0.20 0.588 30 410 E 2 ND ND ND ND
  • 24.8 31.2 60.1 47.0 48.4 10 0.20 0.588 30 410 E 3 ND ND ND NIID 24.8 31.2 b0.1 47.0 46.4 10 0.20 0.5B8 30 410 E 4 ND ND ND ND 24.8 31.2 60.1 47.0 48.4 10 0.20 0.588 30 411 D 1 ND
  • ND ND ND 14.2 15.1 56.5 33.2 35.7 10 0.20 0.5B8 .20 411 D 2 ND ND ND ND l 14.2 15.1 56.5 33.2 35.7 10 0.20 0.588 20 411 D .., ND ND ND ND l 14.2 15.1 56.5 33.2 35.7 10 0.20 0.588 20 _,
  • 411 D 4 ND ND ND ND l 14.2 15.1 56.5 33.2 35.7 10 0.20 0.588 20 '* 411 E 1 ND ND ND ND
  • 12.2 15.6 34.9 25.9 25.9 10 0.20 0.588 20 l 411 E 2 ND ND ND ND .
  • 12.2 15.6 34.9 25.9 25.9 10 0.20 0.588 20 411 E 3 ND . ND ND ND
  • 12.2 15.li 34.9 25.9 25.9 10 0.20 0.588 20 411 E 4 ND ND ND ND t 12.2 15.6 34.9 25.9 25.9 10 0.20 0.588 20 412 D 1 19 21 NOD 11
  • 39.9 41.6 83.3 57.3 58.7 10 0.20 0.588 40 412 D ., NilD NIID NQD 20 l 39.9 41.6 83.3 57.3 58.7 10 0.20 0;588 40 .l. 412 D 3 16 18 18 18
  • 39.9 41.6 83.3 57.3 58.7 10 0.20 0.588 40 412 D 4 NQD NOD 8 NOD t 39.9 41.6 83.3 Si.3 58.7 10 0.20 0.58B 40 412 E 1 38 41 60 41 t 38.0 43.2 65.2 55.1 55.1 10 0.20 0.588 40 412 E 2 72 77 73 66 t 38.0 43.2 65.2 55.1 55.1 10 . 0.20 0.588 40 412 E ,) 78 80 78 76
  • 38.0 43.2 65.2 55.1 55.1 10 0.20 0.588 40 412 E 4 78 i9 78 77 t 38.0 43.2 65.2 55.1 55.1 10 0.20 0.588 40 413 D 1 47 62 65 SB l 64.3 65.3 95.8 10 0.20 0.588 50 413 D 2 liO 62 60 58 t 64.3 95.8 10 0.20 0.588 50 413 D -3 41 49 47 48 t 64.3 65.3 95.8 10 0.20 0.588 50 413 D 4 so 44 51 42 l 64.3 65.3 95.8 10 0.20 0.588 50 413 E 47 65 60 62 t 56.6 64.7 74.8 10 0.20 o.588 50 413 E 2 66 65 65 71 t 56.6 64.7 74.8 10 0.20 0.588 50 413 E 3 65 63 58 62
  • 56.6 64.7 74.8 10 0.20 0.588 50 413 E 4 52 49 51 56 i 56.6 64.7 74.8 10 0.20 0.58B 50 414 D 1 NGD NIID NQD NIID t 46.7 46.2 92.4 10 0.20 0.588 60 414 D 2 tmD NQD 13 NIID i 46.7 48.2 92.4 10 0.20 0.588 60 414 D 21 22 21 22 t 46.7 48.2 92.4 10 0.20 0.588 60 " 414 D 4 N9D NIID NGD NQD
  • 46;7 48.2 92.4 10 0.20 0.588 60 414 E 1 51 52 48 49
  • 43.9 50.1 71.3 10 0.20 0.588 60 414 E 2 68 63 73 54
  • 43.9 50.1 71.3 10 0.20 0.588 60
  • 414 E 78 73 71 82
  • 43.9 50.1 71.3 10 0.20 0.588 60 ,. 414 E 4 70 70 65 67
  • 43.9 50.1 71.3 10 0.20 0.58B 60 415 D 1 .79 79 77 77
  • 82.7 83.9 100.0 10 0.20 0.588 80 Page 84 of l36
  • l6ADATA.8X1 ID DEF PRO ECT! ECT2 ECT3 ECT4 ECT5 Al l'IAI l'IP AS MAS DENT AXIAL CIRC. DEPTH ------------------------------------------------------------------------------------------------------------------------------------

415 D 2 70 71 72 75 ' 82.7 83.9 100.0 10 0.2(! 0.588 80 415 D 3 79 79 73 75 l 82.7 83.9 100.0 10 0.20 0.588 8!) 415 D 4 70 63 63 69

  • 82.7 83.9 100.0 10 0.20 0.588 80 415 E 1 72 77 76 75 t 74.4 82.5 91.1 10 0.20 0.588 80 415 E " 68 71 72 75 l 74.4 82.5 91.1 10 0.20 0.588 80 i. 415 E 3 77 77 77 76 l 74.4 82.5 91.1 10 0.20 0.588 BO 415 E 4 81 76 73 78 i 74.4 82.5 91.1 10 0.20 0.588 BO 416 D 1 58 63 53 59 l 65.2 67.3 100.0 10 0.20 0.588 100 416 D 2 75 77 69 74 i 65.2 67.3 100.0 10 0.20 0.588 100 416 D 68 62 65 58 l 65.2 67.3 100.0 10 0.20 0.588 . 100 416 D 4 63 63 68 73 t 65.2 67.3 100.0 10 0.20 0.588 100 416 E 1 67 70 72 73 l 65.6 73.4 90.2 10 0.20 0.588 100 416 E 2 85 84 78 79 l 65.6 73.4 90.2 10 0.20 0.588 100 416 E 3 BO 82 80 78 i 65.6 73.4 90.2 10 0.20 0.588 100 416 E 4 78 80 77 77
  • 65.6 73.4 90.2 10 0.20 0.588 100 417 D 1 NGD NGD NGD ND t 34.9 36.0 70.3 56.9 57.9 12 0.20 0.588 30 417 D 2 NGD NGD NGD NGO t 34.9 36.0 70.3 56.9 57 .9 12 0.20 0.588 30 417 D 3 NGD NGD NGO NGD i 34.9 36.0 70.3 56.9 57. 9 12 0.20 0.588 30 417 D 4 NGD NGD NGD NGD t 34.9 36.0 70.3 56.9 57.9 12 0.20 0.588 30 417 E 1 44 84 NGD ND l 30.3 37.0 76.1 55.2 58.3 12 0.20 0.588 30 417 E 'l NGD ND NGD NGD t 30.3 37.0 76.1 55.2 58.3 12 0.20 0.588 30 '" 417 E 3 89 NGD 88 93 t 30.3 37.0 76.1 55.2 58.3 12 0.20 0.588 30 417 E 4 ND 93 100 95 l 30.3 37.0 76.1 55.2 58.3 12 0,20 0.588 30 :*** 418 D 1 ND ND ND ND
  • 17.5 18.1 61.5 39.6 42.8 12 0.20 0.588 20 ,18 D " ND ND ND ND l 17.5 18.1 61. 5 39.6 42.8 12 0.20 0.588 20 i. 418
  • D 3 ND ND ND ND t 17.5 18.1 61. 5 39.6 42.8 12 0.20 0.588 20 418 D 4 ND ND ND ND
  • 17.5 18.1 61.5 39.6 42.8 12 0.20 0.588 20 418 E 1 ND ND ND ND l 17.7 19.8 59.2 44.3 47.1 12 0.20 0.588 20 418 E 2 ND* ND ND ND t 17. 7 19.8 59.2 44.3 47.1 12 0.20 . 0.588 20 418 E 3 ND ND ND ND l 17.7 19.8 59.2 44.3 47.1 12 0.20 0.588 20 418 E 4 ND ND ND ND t 17.7 19.8 59.2 44.3 47.1 12 0.20 0.588 20 419 D 1 NGD NGD NGD NGD l 52.7 53.1 86.6 12 0.20 0.588 40 419 D " NGD NGD 37 NGD i 52.7 53.1 86.6 12 0.20. 0.588 40 i. 419 D "! ,1 22 15 37 46 t 52.7 53.1 86.6 12 0.20 0.588 40 419 D 4 NGO NGD NGD NGD t 52.7 53.1 86.6 12 0.20 0.588 40 419 E 1 85 83 83 84
  • 46.3 50.7 74.9 12 0.20 0.588 40 419 E 2 NQD 82 86 NGD t 46.3 50.7 74.9 12 0.20 0.588 40 419 E 3 99 82 85 87 t 46.3 50.7 74.9 12 0.20 0.598 40 419 E 4 88 88 85 85
  • 46.3 50.7 74.9 12 0.20 0.588 40 420 D 1 37 10 NGD NGD
  • 63.3 67.7 88.2 12 0.20 0.588 50 420 D 2 NGD 42 49 45 t 63.3 67.7 88.2 12 0.20 0.588 50 420 D 3 40 45 48 45 t 63.3 67.7 88.2 12 0.20 0.588 50 420 D 4 51 53 21 25 l 63.3 67.7 88.2 12 0.20 0.598 50 420 E 1 94 93 88 91 l 58.4 64.8 90.7 12 0.20 0.588 so 420 E 2 NGD 74 75 72 t 58.4 64.8 80.7 12 0.20 0.588 50 420 E 3 93 79 68 77 t 58.4 64.8 80.7 12 0.20 1). 588 50 420 E 4 96 83 81 86
  • 58.4 64.8 80.7 12 0.20 0.588 50 421 D 1 NGO NGD NGD NGD t 34.7 36.9 77.4 55.5 55.9 12 0.20 0.588 60 421 . D 2 NGD NGD NGD NGO
  • 34.7 36.9 77.4 55.5 55.9 12 0.20 o. 588 60 421 D 3 NGO
  • NGD 25 t 34.7 36.9 77.4 55.5 55.9 12 0.20 0.588 60 -* :. 421 D 4 NGO NGD NGD NGD t 34.7 36.9 77.4 55.5 55.9 12 0.20 0.588 60 421 E 1 86 89 87 87 l 41.9 47.5 79.0 61.5 61.5 12 0.20 0.588 60 421 E 'l NGD 86 86 NGO t 41.9 47.5 79.0 61.5 61. 5 12 0.20 0.588 60 .L Page 85 of 136
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421 E ,) 90 77 82 91

  • 41.9 47.5 79.0 61.5 61. 5 12 0.20 0.588 60 421 E 4 100 98 95 91
  • 41.9 47.5 79.0 61. 5 61.5 12 0.20 0.588 60 422 D 1 64 62 62 62
  • Bl.6 84.9 96.2 12 0.20 0.588 BO 422 D 2 63 65 73 55
  • 81.6 84.9 96.2 12 0.20 0.588 BO 422 D 3 67 66 70 75
  • 81.6 84.9 96.2 12 0.20 0.588 80 422 D 4 73 77 75 79 ** 81.6 84.9 96.2 12 0.20 0.588 80 422 E 1 78 77 B6 81
  • 78.9 83.7 96.1 12 0.20 0.588 80 422 E 2 79 83 86 Bl
  • 78.9 83.7 96.1 12 0.20 0.588 80 422 E 3 BB 81 BB BB
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  • 7B.9 83.7 96.1 12 0.20 0.5B8 80 423 D 1 75 74 80 74
  • 86.4 90.2 100.0 12 0.20 0.588 100 423 D 2 62 76 75 73
  • 86.4 90.2 100.0 12 0.20 0.5B8 100 423 D 3 80 82 80 82
  • B6.4 90.2 100.0 12 0.20 0.58B 100 423 D 4 82 85 74 84
  • B6.4 90.2 100.0 12 0.20 0.588 100 . 423 E 1 83 83 B6 Bl 80.6 B5.8 9B.1 12 0.20 0.588 100 423 E 2 82 B2 B4 Bl B0.6 B5.B 98.1 12 0.20 0.5B8 100 423 E 3 BB BB BB 89 80.6 85.B 98.1 12 0.20 0.588 1ov 423 e: 4 93 93 92 97
  • B0.6 B5.8 98.l 12 0.20 0.5B8 100 424 D 1 ND ND ND ND
  • 24.9 25.7 66.0 45.2 46.4 15 0.20 0.5BB 30 424 D 2 ND ND ND ND
  • 24.9 25.7 66.0 45.2 46.4 15 0.20 0.58B 30 424 D 3 ND ND ND ND 24.9 25.7 66.0 45.2 46.4 15 0.20 . *o.588 30 424 D 4 ND ND ND ND
  • 24.9 25.7 66.0 45.2 46.4 15 0.20 0.5BB 30 424 E 1 ND ND ND ND
  • 21.B 23.4 38.3 15 0.20 0.58B 30 424 E 2 ND ND ND ND
  • 21.8 23.4 38.3 15 0.20 0.588 30 ... 424 e: 3 ND ND ND ND
  • 21.B 23.4 38.3 15 0.20 0.588 30 424 E 4 ND ND ND ND
  • 21.8 23.4 38.3 15 0.20 0.588 30 425 D 1 ND ND . ND ND
  • 26.2 28.1 66.6 50.9 52.4 15 0.20 0.588 20 425 D 2 ND NOD ND ND
  • 26.2 28.1 66.6 50.9 52.4 15 0.20 0.5B8 20 425 D 3 NOD NOD NOD NOD
  • 26.2 28.1 66.6 50.9 52.4. 15 0.20 0.588 2.0 425 D 4 ND ND ND ND
  • 26.2 28.1 66.6 50.9 52.4 15 0.20 0.58B 20 425 E 1 ND INC ND ND
  • 17.6 23.6 55.9 40.0 46.6 15 0.20 0.588 20 425 e: 2 . ND tlD ND ND
  • 17.6 23.6 55.9 40.0 46.6 15 0.20 0.588 20 425 E ,) ND ND ND ND
  • 17.6 23.6 55.9 40.0 46.6 15 0.20 0.588 20 425 E 4 ND ND ND ND
  • 17.6 23.6 55.9 40.0 46.6 15 0.20 0.588 20 426 D 1 NOD 14 NOD NOD
  • 55.3 58.1 79.5 15 0.20 0.588 40 426 D 2 NOD NOD NOD . 27
  • 55.3 58.1 79,5 15 0.20 0.588 40 426 D 3 4 NGD 12 21
  • 55.3 58.1 79.5 15 0.20 0.588 40 426 D 4 NOD NOD NOD NOD
  • 55.3 58.1 79.5 15 0.20 0.588 40 426 E 1 87 88 86 86
  • 40.6 45.9 70.2 58.7 58.7 15 0.20 0.588 40 426 E 2 NOD 90 NOD NOD
  • 40.6 45.9 70.2 58.7 58.7 15 0.20 0.588 40 426 E .. 93 NOD 86 88
  • 40.6 45.9 70.2 58.7 58.7 15 0.20 0.588 40. *' 426 E 4 97 96 95 94
  • 40.6 45.9 70.2 58.7 58.7 15 0.20 0.588 40 427 D 1 NOD NOD ND ND
  • 26.6 28.8 63.7 46.8 49.9 15 0.20 0.588 50 427 D 2 NOD NOD NOD NOD
  • 26.6 28.8 63.7 46.8 49.9 15 0.20 0.5B8 427 D 3 NOD NOD NOD NOD
  • 26.6 28.8 63.7 46.8 49.9 15 0.20 0.588 50 427 0 4 NOD ND ND ND
  • 26.6 28.8 63.7 46.8 49.9 15 0.20 0.588 50 427 E 1 NGD NOD 88 ND ' 25.9 29.4 62.7 41.2 46.2 15 0.20 o.588 50 427 E 2 NOD NOD NOD NOD
  • 25.9 29.4 62.7 41.2 48.2 15 0.20 0.588 50 427 e: 3 NQD NGD NGD NOD ' 25.9 29.4 62.7 41.2 48.2 15 0.20 0.588 50 427 E 4 NGD ND ND ND
  • 25.9 29.4 62.7 41.2 48.2 15 0.20 0.588 50
  • 428 D 1 NOD 4 NOD NOD ' 58.5 60.1 78.6 15 0.20 0.588 60 428 D 2 NOD . 31 NOD 25
  • 5B.5 60.1 78.6 15 0.20 0.5B8 60 428 D 'l' 26 26 28 ' 5B.5 60.1 78.6 15 0.20 0.5B8 60 ... o Page 86 of 136
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428 D 4 NllD NllD NllD NllD

  • 5B.5 60.1 7B.6 15 0.20 0.588 60 428 E 1 B5 .64 87 83
  • 52.7 SB.2 80.0 15 0.20 0.58B 60 428 E 2 NllD 61 60 61
  • 52.7 5B.2 80.0 15 0.20 0.588 60 428
  • E 3 91 81 73 85
  • 52.7 58.2 80.0 15 0.20 0.588 60 42B E 4 93 93 94 94
  • 52.7 58.2 80.0 15 0.20 0.58B 60 429 D 1 74 83 83 72
  • 90.3 91.5 100.0 15 0.20 0.588 80 429 D 2 65 66 69 68
  • 90.3 91.5 100.0 15 0.20 0.588 BO 429 D 3 79 81 82 B3 l 90.3 91.5 100.0 15 0.20 O.SBB BO 429 D 4 32 60 25 66 l 90.3 91.5 100.0 15 0.20 0.58B 80 429 E 1 77 B2 86 78 l 82.2 88.6 96.9 15 0.20 0.5BB BO 429 E 2 75 75 77 73
  • B2.2 BB.6 96.9 15 0.20 0.5BB BO 429 E 3 84 86 B6 B5
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  • Page 88 of 136 IGADATA.8Xl ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 AI MAI MP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

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465 E 2 20 NQD 'l'l NQD

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  • 34.(i 36.7 41.B ---0.20 0.588 40 473 E 1 tmD 35 NGO 22
  • 30.7 33.4 38.5 ---0.20 0.588 40 473 E 24 28 21 24
  • 30.7 33.4 38.5 ---0.20 0.588 40 L 473 E 1 67 69 69 65 ., t 30.7 33.4 38.5 ---0.20 0.588 40 474 D 1 1 10 7 13 i 17.8 18.6 26.9 ---0.20 0.588 50 474 D ') 14 24 7 18
  • 17.B 18.6 26.9 ---0.20 0.588 50 L 474 D 3 23 32 32 23
  • 17.8 lB.6 26.9 ---0.20 0.588 50 474 E 1 46 38 35 38
  • 23.2 24.0 39.9 ---0.20 0.588 50 . /"t E 2 18 NGD 7 14 i ... ? ... 24.(1 39.9 ---0.20 0.588 50 474 E 3 35 43 37 33 l 23.2 24.0 39.9 ---0.20 0.588 50 475 D 1 NGO NGD NGD 65 i 11.5 11. 7 17.5 ---0.20 0.588 60 475 D 2 NGO NGD NGD NGO
  • 11.5 11.7 17.5 ---0.20 0.588 60 475 D 3 NGD 23 22 25
  • 11. 5 11.7 17.5 ---0.20 0.588 60 475 E 1 39 37 43 48
  • 13.7 13,8 18.7 ---0.20 0.588 60 475 E 2 NGD NGD NGD NGD
  • 13.7 13.8 18.7 ---0.20 0.588 60 475 E 3 8 22 NGD 11
  • 13.7 13.8 18.7 ---0.20 0.588 60 **** 476 D 1 29 25 37 27 ' 18.6 19 .1 25.5 ---0.20 0.588 80 476 D 2 23 3 NGO NGD ' 18.6 19.1 25,5 ---0.20 0.588 80 476 D 3 NGD NGD 25 24 t 18.6 19.1 25.5 ---0.20 0.588 80 476 E 1 NGO NGO NDD NDD
  • 24.6 26.2 38.6 ---0.20 0.588 BO 476 E NGO NGO NDD NGD
  • 24.6 26.2 38,6 ---0.20 0.588 80 L 476 E 3 29 22 24 24
  • 24.6 26.2 38.6 ---9.20 0.588 80 477 D 1 63 63 62 62 ' 77.8 78.1 84.1 ---0.20 0.588 100 477 0 ') 70 76 77 78
  • 77.8 78.1 . 84.1 ---0.20 0.588 100 L 477 D ,. 73 73 i3 74 l 77.S 78.1 84.1 ---0.20 0.588 100 *-* 477 E 1 61 62 62 61 i 79.2 80.6 87.5 ---0.20 0.588 100 .L 477 E 2 84 86 84 85
  • 79.2 80.6 87.5 ---0.20 0.588 100 477 E T 76 76 77 76 ' 79.2 80.6 87.5 ---0.20 0.588 100 .; 480 D 1 36 51 40 36 * ---0.20 1.763 40 480 D " 41 17 23 23 * ---0.20 1.763 40 L 480 D .:1 38 38 40 39 i ---0.20 1.763 40 480 D 4 41 40 29 26 l ---0.20 1.763 40 480 E 1 41 46 43 42 l ---0.20 2.355 40 480 E 2 47 31 34 31 t ---0.20 2.355 40 480 E 3 47 48 33 36 t ---0.20 2.355 40 480 E
  • 45 41 44 33 ' ---0.20 2.355 40 ' 481 D 1 48 33 35 t ---0.20 0.460 40 ..;1,) 481 D 2 46 46 65 31 t ---0.20 0.460 40 481 D 3 38 36 37 38 t ---0.20 0.460 40 481 i) 4 30 37 38 38 * ---0.20 0.460 40 4B1 t ! 50 47 38 42 t ---0.20 0.588 40 ... 481 E 2 36 46 47 37 t ---0.20 0.588 40 :. 481 E 3 46 40 40 46 t ---0.20 0.588 40 481 E 4 41 38 38 37 t ---0.20 0.588 40 482 D 1 N!lD NGO NGO NGO l ---0.20 0.070 40 Page 92 of 136
  • CIRDATA.BX1 ID DEF PRO ECT1 ECT2
  • ECT3 ECT4 ECTS DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

205 A 99 97 9B 9B l 0.375 .OOB 0.049 100 205 A " 99 94 94 98

  • 0.375 .008 0.049 100 .<. 205 A ,) 100 99 50 100 0.375 .OOB o.*049 100 205 A 4 93 99 97 97 0.375 .008 0.049 100 205 B 1 67 62 58 59
  • 0.375 .007 0.028 60 205 B ., 47 42 50
  • l 0.375 .007 0.02B 60 i.. 205 B 3 68 69 59 70 l o.:m .007 0.028 60 205 B 4 56 36 31 31
  • 0.375 .007 0.028 60 205 c 1 71 67 69 68 t 0.375 .007 0.038 BO 205 c 2 62 63 63 57
  • 0.375 .007 0.038 BO 205 c 3 82 80 BO BO
  • 0.375 .007 0.038 BO 205 c 4 74 67 64 64
  • o.:m .007 0.038 80 205 D 1 B4 39 72 70
  • 0.375 .006 0.019 '40 205 D 2 50 68 66 65 l 0.375 .006 0.019 40 205 D 3 66 50 57 60
  • 0.375 .006 0.019 40 205 D 4 28 35 75 77
  • 0.375 .006 0.019 40 205 E 1 47 BO 52 70 t 0.375 .006 0.022 45 205 E 2 55 32 36 94 i 0.375 .006 0.1)22 45 205 E 3 39 50 39 55
  • 0.375 .006 0.022 45 205 E 4 36 35 19 24
  • 0.375 .006 0.022 45 205 F 1 ND ND ND ND 0.375 .006 0.010 20 205 F 2 NGD NGD NGD ND
  • 0.375 .006 0.010 20 205 F 3 ND ND ND ND
  • 0.375 .006 0.010 20 ::* 205 F 4 NGD NGD NGD ND l 0.375 .006 0.010 20 209 A 1 57 53 63 63 l 0.375 .006 0.018 38 209 A 2 45 69 80 B2 l 0.375 .006 0.01B 3B 209 A 3 56 56 65 69
  • 0.375 .006 0.018 38 209 A 4 79 23 59 68 0.375 .006 O.OlB 38 209 B 1 NGD NGD NGD NGD 10 . 0.375 .006 0.020 42 209 B 2 6 NGD NGD NGD l 10 0.375 .006 0.020 42 209 B 3 NGD NGD NGD NGD
  • 10 0.375 .006 0.020 42 209 B 4 NGD NGD NGD NGD
  • 10 0.375 .006 0.020 42 209 c 1 NGD NGD NGD NGD
  • 9 0.375 .006 0.017 35 209 c 2 8 NGD NGD 7 9 0.375 .006 0 *. 017 35 209 c 3 NGD NGD NGD NGD 9 0.375 .006 0.017 35 209 c 4 NGD NGD NGD NGD 9 0.375 .006 0.017 35 209 D 1 NGD NGD NGD NGD 6 0.375 .006 0.01B 38 209 D 2 NGD NGD NGD NGD 6 0.375 .006 0.018 38 209 D 3 NGD NGD NGD NGD b 0.375 .006 0.018 38 209 D 4 ND NGD NGD NGD 6 0.375 .006 0.018 38 209 E 1 62 NGD NGD 73 4 0.375 .006 0.020 42 209 E 2 18 34 39 32 4 0.375 .006 0.020 42 209 E 3 2 NGD NGD NGD
  • 4 0.375 .006 0.020 42 209 E 4 70 59 43 0 46
  • 4 0.375 .006 0.020 42 209 F 1 SB 71 56 27 2 0.375 .006 0.017 35 2(19 F 2 55 27 34 31
  • 2 0.3i5 .006 0.017 35 209 F 3 37 67 40 43 l ., 0.375 .006 0.017 35 .<. 209 F 4 NGD 55 1B tmD
  • 2 0.375 .006 0.017 35 21Ci A 1 53 61 63 59
  • 0.375 .006 0.025 52 210 A . 2 6B 67 71 74
  • 0.375 .006 0.025 52
  • 210 A 3 69 68 72 75 0.375 .006 0.025 52 210 A 4 52 60 49 54 0.375 .006 0.025 52 210 B 12 18 13 17 10 0.375 .006 0.025 52 Page 93 of 136
  • CIRDATA.BX1 ID DEF PRO ECTl ECT2 Ecn ECT4 ECTS DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

210 B 2 NUD rWD NUD NUD g 10 0.375 .006 0.025 52 210 B "l' 9 17 32 20

  • 10 0.375 .006 0.025 52 "' 210 B 4 62 21 22 19
  • 10 0.375 .006 0.025 52 210 c 44 37 44 44
  • B 0.375 .006 0.025 52 210 c 2 43 60 76 67
  • B 0.375 .006 0.025 52 210 c 3 49 38 44 52
  • B 0.375 .006 0.025 52 210 c 4 51 *47 46 NUD
  • 8 0.375 .006 0.025 52 210 D 1 48 50 49 51
  • 6 0.375 .006 0.025 52 210 D ... 62 69 51 t l 6 0.375 .006 0.025 52 I.. 210 D 7 44 48 50 67
  • 6 0.375 .006 0.025 52 .* \ 210 D 4 45 49 51 41
  • 6 0.375 .006 0.025 52 210 E 1 60 50 61 58
  • 4 0.375 .006 0.026 54 210 E 2 55 51 81 84
  • 4 0.375 .006 0.026 54 210 E 3 70 81 62 65 l 4 0.375 .006 0.026 54 210 E 4 62 60 52 70 4 0.375 .006 0.026 54 21!) F 1 62 58 59 58 2 0.375 .006 0.027 56 210 F 2 57 71 73 71 l 2 0.375 .006 0.027 56 210 F 7 70 57 71 69
  • 2 0.375 .006 0.027 56 .J 210 F 4 50 46 46 44
  • 2 0.375 .006 0.027 56 211 A 1 74 76 77 73
  • 0.375 .006 0.030 63 211 A 2 82 84 83 82 t 0.375 .006 0.030 63 211 A 3 70 62 70 69
  • 0. 375 -----; 006 0.030 63 211 A 4 73 72 73 74
  • 0.375 .006 0.030 63 ... 211 B 1 73 76 72 69
  • 10 0.375 .006 0.030 63 f. 211 B 2 87 85 84 82
  • 10 0.375 .006 0.030 63 \ 211 B . 3 59 13 60 59 a 10 0.375 .006 0.030 63 211 4 64 60 62 61
  • 10 0.375 .006 0.030 63 211 c 1 78 81 84 87
  • 8 0.375 .006 0.030 63 211 c 2 87 86 84 88 a 8 0.375 .006 0.03(1 63 211 c 3 65 24 64 67
  • 8 0.375 .006 0.030 63 211 c 4 68 70 61 63
  • B 0.375 .006 0.030 63 211 D 1 69 71 . 69 66
  • 6 0.375 .006 0.032 67 2!1 D '") so 79 82 87
  • 6 0.375 .006 0,032 67 .. 211 0 3 72 14 70 71
  • 6 0.375 .006 0.032 67 211 D 4 71 71 66 64
  • 6 0.375 .006 0.032 67 211 E 1 74 73 75 73
  • 4 0.375 .006 0.031 65 211 E 2 BO 84 85 86 l 4 o.:m .006 0.031 65 211 E 3 77 32 78 76 i 4 0.375 .006 0.031 65 211 E 4 81 77 66 66
  • 4 0.375 .006 0.031 65 211 F 1 72 69 73 72
  • 3 0.375 .006 0.034 71 211 F 2 82 83 84 87 g 3 0.375 .006 0.034 . 71 211 F 3 73 54 74 75
  • 3 0.375 ,006 0,034 71 211 F 4 76 72 70 64 3 0.375 .006 (l.034 71 212 A 1 100 91 99 98 0.375 .006 0.049 100 212 A 2 84 89 94 92
  • 0.375 .006 0.049 100 212 A 3 100 85 94 80
  • 0.375 .006 0,049 100 212 A 4 99 99 100 99
  • 0.375 ,006 0.049 100 212 B 96 97 BB 96
  • 11 0.375 .006 0.049 100 "1" ..... B 2 100 94 87 87
  • 11 0.375 .006 0.049 100 212 B 100 98 100 96
  • 11 0.375 .006 0.049 100
  • 212 B 4 100 93 100 100
  • 11 0.375 .006 0.049 100 212 c 1 96 98 88 96
  • 8 0.375 .006 0.049 100 .,1., c '") 94 1(10 97 97
  • 8 0.375 .0% 0.049 100 LJ.L L Page 94 of.136
  • CIRDATA.BH ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH IDEPTH -----------------------------------------------------------------------------------------------

212 c 3 BB 99 9B 97

  • B 0.375 .006 0.049 100 212 c 4 99 99 99 99
  • 8 0.375 .006 0.049 100 212 D 1 100 96 BB 92
  • 6 0.375 .006 0.049 100 212 D 2 100 100 99 99
  • 6 0.375 .006 0.049 100 212 D 3 100 96 100 99
  • 6 0.375 .006 0.049 100 212 . D 4 99 99 99 99
  • 6 0.375 .006 0.049 100 212 E 1 92 92 B5 85
  • 4 0.375 .006 0.049 100 212 E 2 100 94 100 99
  • 4 0.375 .006 0.049 100 212 E 3 100 96 100 100
  • 4 0.375 .006 0.049 100 212 E 4 100 99 99 99
  • 4 0.375 .006 0.049 100 212 F 1 98 98 92 96
  • 2 0.375 .006 0.049 100 212 F 2 9B 100 95 98
  • 2 0.375 .006 0.049 100 212 F 3 99 93 98 94
  • 2 0.375 .006 0.049 100 212 F 4 99 99 99 97
  • 2 0.375 .006 0.049 100
  • Page 95 of 136
  • WASDATA.llRP ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH XDEPTH -----------------------------------------------------------------------------------------------

168 A 1 57 55 50 54

  • 0.110 0.110 0.029 60 168 A 2 57 ' 54 a *
  • 0.110 0.110 0.029 60 168 A 3 77 58 63 59
  • 0.110 0.110 0.029 60 168 A 4 65 65 60 58
  • 0.110 0.110 0.029 60 168 B 1 49 47 49 60 t 2 0.110 0.029 60 168 B 2 54 40
  • t
  • 2 0.110 0.110 0.029 60 168 B 3 73 68 62 59
  • 2 0.110 0.110 0.029 60 168 B 4 51 53 55 61 t 2 0.110 0.110 0.029 60 168 c 1 54 67 61 68
  • 4 0.110 0.110 0.030 63 168 c 2 51 45 * *
  • 4 0.110 0.110 0.030 63 168 c 3 62 68 46 60
  • 4 0.110 0.110 0.030 63 168 c 4 57 59 56 53 t 4 0.110 0.110 0.030 63 168 D 1 51 60 60 62
  • 6 0.110 0.110 0.030 63 168 D 2 51 53 t *
  • 6 0.110 *o.uo 0.030 63 168 D 3 62 61 66 65
  • 6 0.110 0.110 0.030 63 168 D 4 65 62 70 60
  • 6 0.110 0.110 0.030 63 168 E 1 66 60 57 52 t 8 0.110 0.110 0.030 63 168 E 2 66 57
  • t
  • 8 0.110 0.110 0.030 63 168 E 3 70 62 71 59
  • B 0.110 0.110 0.030 63 168 E 4 63 68 68 64
  • 8 0.110 0.110 0.030 63 168 F 1 72 55 62 64
  • 10 0.110 0.110 0.028 58 168-F 2 59 66 * *
  • 10 0.110 0.110 0.028 58 168 F 3 52 69 63 64
  • 10 o.uo 0.110 0.028 58 168 F 4 77 73 75 78
  • 10 0.110 0.110 0.028 58 ' .* 169 A 1 52 51 55 53
  • 0.109 0.109 0.028 58 169 A 2 62 64 * *
  • 0.109 0.109 0.028 58 169 A 3 63 56 58 44
  • 0.109 0.109 0.028 58 169 A 4 60 55 59 58
  • 0.109 0.109 0.028 58 169 B 1 58 51 57 56
  • 2 0.109 0.109 0.029 60 169 B 2 59 60 * *
  • 2 0.109 0.109 0.029 60 169 B 3 55 58 64 56
  • 2 0.109 0.109 ' 0.029 60 169 B 4 60 57 60 54
  • 2 0.109 0.109 0.029 60 169 c 1 52 49 55 52
  • 4 0.109 0.1Q9 0.028 58 169 c 2 79 59 * *
  • 4 0.109 0.109 0.028 58 169 c 3 56 48 57 56
  • 4 0.109 0.109 0.028 58 169 c 4 56 57 54 55
  • 4 0.109 0.109 0.028 58 169 D 1 58 54 59 59
  • 6 0.109 0.109 0.029 60 169 D 2 62 58 * *
  • 6 0.109 0.109 0.029 60 169 D 3 77 ' 61 58 58 ' *6 0.109 0.109 0.029 60 169 D 4 57 58 59 59
  • 6 0.109 0.109 0.029 60 169 E 1 52 53 47 51
  • 7 0.109 0.109 0.028 58 169 E 2 61 53 * *
  • 7 0.109 0.109 0.028 58 169 E 3 68 68 64 60
  • 7 0.109 0.109 0.028 58 169 E 4 58 62 60 61
  • 7. 0.109 0.109 0.028 58 169 F 1 56 48 62 53
  • 10 0.109 0.109 0.028 58 169 F 2 69 60 * *
  • 10 0.109 0.109 0.028 58
  • I 169 F 3 61 64 57 58
  • 10 0.109 0.109 0.028 58 ! 169 F 4 60 55 57 56
  • 10 0.109 0.109 0.028 58 170 A 1 50 53 43 49
  • 0.109 0.109 0.029 59 170 A 2 56 52 * *
  • 0.109 0.109 0.029 59 ** 170 A 3 26 48 49 58
  • 0.109 0.109 0.029 59 170 A 4 54 62 57 61
  • 0.109 0.109 0.029 59 170 B 1 51 55 54 48
  • 2 0.109 0.109 0.029 59 Page 96 o.f 136
  • WASDATA.l'IRP ID DEF. PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH I DEPTH *-----------------------------------------------------------------------------------------------

170 B 2 56 59 * *

  • 2 0.109 0.109 0.029 59 170 B 3 46 53 58 62
  • 2 0.109 0.109 0.029 59 170 B 4 54 *59 55 56
  • 2 0.109 0.109 0.029 59 170 c 1 55 52 51 53
  • 4 0.109 0.109 . 0.029 59 170 c 2 63 59 * *
  • 4 0.109 0.109 0.029 59 . 170 c 3 54 52 41 54
  • 4 0.109 0.109 0.029 59 170 c 4 54 53 50 57
  • 4 0.109 0.109 0.029 59 170 D 1 57 48 48 57
  • 6 0.109 0.109 0.029 59 170 D 2 53 53 * *
  • 6 0.109 0.109 0.029 59 170 D 3 52 48 53 54
  • 6 0.109 0.109 0.029 59 170 D 4 51 52 56 54
  • 6 0.109 0.109 0.029 59 170 E 1 53 52 55 55
  • 8 0.109 0.109 0.029 59 . I 170 E 2 67 59 t t
  • 8 0.109 0.109 0.029 59 170 E 3 55 5B 56 58
  • B 0.109 0.109 0.029 59 170 E 4 56 61 55 54
  • 8 0.109 0.109 0.029 59 170 F 1 53 52 53 55
  • 10 0.109 0.109 0.029 59 170 F 2 65 51 * * *-10 0.109 0.109 0.029 59 170 F 3 57 65 57 49
  • 10 0.109 0.109 0.029 59 170 F 4 61 62 63 65
  • 10 0.109 0.109 0.029 59 178 A 1 93 92 94 100
  • 0.050 0.050 0.049 100 17B A 2 89 98 * *
  • 0.050 0.050 .. 0.049 100 17B A 3 100 94 95 93
  • 0.050 0.050 0.049 100 178 A 4 91 98 97 91
  • 0.050 0.050 0.049 100 (. 178 B 1 89 88 85 80
  • 0.075 0.075 0.037 BO 17B B 2 81 86
  • t
  • 0.075 0.075 0.037 BO 178 B 3 89 86 88 85
  • 0.075 0.075 0.037 80 178 B 4 88 88 88 86
  • 0.075 0.075 0.037 80 178 c 1 60 55 55 62
  • 0.110 0.110 0.027 59 178 c 2 57 75 * * * . 0.110 0.110 0.027 59 178 c 3 68 68 58 68
  • 0.110 0.110 0.027 59 178 c 4 56 65 61 52
  • 0.110 0.110 0.027 59 178 D 1 40 38 34 44
  • 0.190 0.190 0.018 39 178 D 2 39 23 * *
  • 0.190 0.190 0.018 39 178 D 3 71 47 49 52
  • 0.190 0.190 0.018 39 178 D 4 44 44 49 44
  • 0.190 0.190 . 0.018 39 178 E 1 32 39 24 25
  • 0.190 0.190 0.009 20 178 E 2 15 32 * *
  • 0.190 0.190 0.009 20 178 E 3 74 35 89 46
  • 0.190 0.190 0.009 20 178 E 4 17 31 28 33 i 0.190 0.190 0.009 20 302 A 1 67 67 71 77 t 2 0.196 .688 0.038 78 302 A 2 67 70 69 67
  • 2 0.196 .688 0.038 78 302 A 3 60 69 73 62
  • 2 0.196 .688 0.038 78 302 A 4 75 74 69 78
  • 2 0.196 .688 0.038 78 302 B 1 51 53 55 71 t 2 0.196 .750 0.030 61 302 B 2 59 56 60 66
  • 2 0.196 .750 0.030 61 302 B 3 60 57 60 60
  • 2 0.196 .750 0.030 61 302 B 4 59 56 63 61
  • 2 0.196 .750 0.030 61 302 c 1 47 39 41 38 ** 2 0.196 1.500 0.017 35 302 c 2 27 50 37 33
  • 2 0.196 1.500 0.017 35 302 c 3 .. 58 46 49 42
  • 2 0.196 1.500 0.017 35
  • 302 c 4 14 23 35 26
  • 2 0.196 1.500 0.017 35 302 D 1 26 31 32 32 i 2 0.196 .688 0.010 20 302 D 2 21 47 28 25 i ., 0.196 .688 0.010 20 ,_

Page 97 of 136

  • WASDATA.KRP ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH *-----------------------------------------------------------------------------------------------

302 D 3 NQD NQD 64 57

  • 2 0.196 .688 0.010 20 302 D 4 16 14 13 9
  • 2 0.196 .688 0.010 20 303 A 1 65 64 75 67 i 2 0.588 .813 0.036 73 303 A 2 56 55 75 76
  • 2 0.588 .813 0.036 73 303 A ,) 69 65 63 67
  • 2 0.588 .813 0.036 73 303 A 4 70 71 72 73
  • 2 0.588 .B13 0.036 73 303 B 1 52 54 66 64
  • 2 0.5BB .6BB 0.028 57 303 B 2 39 32 42 45 t 2 0.588 .6B8 0.028 57 303 B 3 49 58 55 56 t 2 0.588 .688 0.028 57 303 B 4 46 41 42 44 t 2 0.588 .688 0.028 57 303 c 1 36 37 58 39
  • 2 0.5BB .6B8 0.01B 37 303 c 2 25 20 29 25
  • 2 0.58B .6BB 0.01B 37 303 c 3 43 59 57 63 ** 2 0.5BB .6BB 0.018 37 303 c 4 11 13 7 9
  • 2 0.5BB .688 0.018 37 303 D 1 31 31 33 28
  • 2 0.588 .813 0.015 31 303 D 2 17 24 15 23
  • 2 0.588 .813 0.015 31 303 D 3 75 63 60 55
  • 2 0.588 .813 0.015 31 303 D 4 INC NGD NQD NQD i 'l 0.588 .813 0.015 31 .. 306 A 1 55 64
  • 84 B5 4 0.196 .688 0.040 82 306 A 2 76 77 81 62 t 4 0.196 .688 0.040 82 306 A 3 78 67 BO 65
  • 4 0.196 .688 0.040 82 306 A 4 72 BO 7B BO
  • 4 0.196 .688 0.040 B2 306 B 1 35 52
  • 66 67 4 0.196 .750 0.029 59 306 B 'l 5B 49 59 54 t 4 0.196 .750 0.029 59 .. :,. 306 B 3 5B 61 60 60 t 4 0.196 .750 0.029 59 306 B 4 57 57 52 62
  • 4 0.196 .750 0.029 59 306 c 1 47 32
  • 54 56 4 0.196 1.063 0.018 37 306 c 2 2B 29 49 39
  • 4 0.196 1.063 0.018 37 3Q6 c 3 44 51 66 38 t 4 0.196 1.063 0.01B 37 306 c 4 30 26 32 33 t 4 0.196 1.063 O.OlB 37 306 D 1 INC 31 t 33 40 4 0.196 .563 0.011 22 306 D 2 16 29 39 20 t 4 0.196 .563 0.011 22 306 il 3 19 11 26 NQD t 4 0.196 .563 0.011 22 306 D 4 NQD NQD 33 26
  • 4 0.196 .563 0.011 22 307 A 1 49 57
  • 74 64 4 0.5BB .813 0.035 71 307 A 2 65 66 71 76
  • 4 0.588 .813 0.035 71 307 A 3 71 68 59 66
  • 4 0.588 .813 0.035 71 307 A 4 70 68 68 67
  • 4 0.588 .813 0.035 71 307 B 1 32 48
  • 64 4 0.588 .750 . 0.028 57 307 B 2 49 47 53 33
  • 4 0.588 .750 0.028 57. 307 B 3 66 60 61 59
  • 4 0.58B .750 0.02B 57 307 B 4 46 41 41 52
  • 4 0.588 .750 0.028 57 307 c 1 28 39
  • 36 43 4 0.588 .750 0.019 39 307 c 2 16 2B 43 22
  • 4 0.588 .750 0.019 39 307 c ,) 53 66 61 65
  • 4 0.588 .750 0.019 39 307 c 4 13 11 14 18
  • 4 0.5B8 '750 0.019 39 307 D 1 INC 23 t 29 32 4 0.5Bli .813 0.015 31 307 D 2 7 21 33 25
  • 4 0.58B .813 0.015 31 307 D 3 73 61 66 67
  • 4 0.5BB .B13 0.015 31 307 D 4 NQD NGD NQ!l' NQD t 4 0.5BB .B13 0.015 31 i:. 310 A 1 73 71 *
  • 77 B 0.196 .B13 0.039 BO 310 A 2 53 79 74 77 t 8 0.196 .B13 0.039 BO . 310 A 3 70 70 73 71
  • B 0.196 .813 0.039 BO
  • (_. : *. .. -* . **-.. WASDATA.llRP ID DEF PRO ECT1 ECT2 ECT4 ECT5 DENT CIRC AXIAL DEPTH XDEPTH -----------------------------------------------------------------------------------------------

310 A 310 B 310 B 310-B 310 B 310 c 310 c 310 c 310 c 310 D 310 D 310 D 310 D 311 A 311 A 311 A 311 A 311 B 311 B 311 B 311 B 311 c 311 c 311 c 311 c 311 D 311 D 311 D 311 D 314 A 314 A 314 A 314 A 314 B 314 B 314 B 314 B 314 c 314 c 314 c 314 c 314 D 314 D 314 D 314 D 315 A 315 A 315 A 315 A 315 B 315 B 315 B 315 B 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 *2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 76 64 50 51 50 58 59 48 49 52 42 40 33 46 56 53 32 32 25 28 10 49 NGO 5 13 NGD 10* 60 72 71 77 71 76 74 40 50 53 47 65 64 55 53 36 . 41 48 37 69 76 29 24 29 35 27 33 71 73 14 30 62 70 64 71 71 69 67 70 52 40 38 57 62 45 61 43 38 27 36 40 49 35 27 37 36 54 38 22 40 23 18 65 72 76 65 76 69 79 79 41 51 49 42 68 68 52 46 74

  • 38 57 54
  • 31 42 33
  • 9 55 5
  • 81 76 73
  • 56 66 54
  • 42 66 21
  • 21 76 NGD 81 70 74 71 61 64 60 55 53 40 45 63 55 16 42 14 74 79 72 79 51 60 60 48 78 t 8 l 64 8 52 a 8 61 t 8 57 t 8 l 44 8 36
  • 8 50 S 8 40 S 8
  • 37 8 5 S 8 6
  • 8 5 S 8 77 66 8 70 S 8 68
  • 8 75 S 8 67 53 8 57
  • 8 64 l 8 54 t 8 44 42 8 36 S 8 66 t 8 30
  • 8 38 36 8 25
  • 8 73
  • 8 27
  • 8 75
  • 10 65
  • 10 65
  • 10 71
  • 10 66
  • 10 55
  • 10 59
  • 10 56
  • 10 53
  • 10 31 ' 10 46
  • 10 33
  • 10 34 * . 10 28 l 10 57 .
  • 10 18
  • 10* BO l 10 B2 l 10 7B l 10 7B .
  • 10 64
  • 10 64 l 10 64
  • 10 54 l 10 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.5B8 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 Q.588 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.196 0.5B8 0.5BB ' 0.5B8 0.588 0.5BB 0.5B8 0.588 0.5BB .813 .750 .750 .750 .750 .750 .750 .750 .750 .68B .688 .688 .688 .750 .750 .750 .750 .750 .750 .750 .750 .750 .750 .750 .750 .813 .813 .813 .813 .688 .688

.688 .750 .750 .750 .750 .813 .813 .813 .813 .813 .813 .813 .813 1.000 1.000 1.000 1.000 .B13 .813 .* B13 .813 0.039 0.029 0.029 0.029 0.029 0.019 0.019 0.019 0.019 0.010 0.010 0.010 0.010 0.038 0.038 0.038 0.038 0.030 0.030 0.030 0.030 0.021 0.021 0.021 0.021 0.016 0 .* 016 0.016 0.016 0.038 0.038 0.038 0.038 0.031 o.o:u 0.031 0.031 0.020 0.020 0.020 0.020 0.012 0.012 0.012 0.012 0.039 0.039 0.039 0.039 0.029 0.029 0.029 0.029 BO 59 59 59 59 39 39 39 39 20 20 20 20 78 78 78 78 61 61 61 . 61 43 43 43 43 33 33 33 33 77 77 77 77 63 63 63 63 41 41 41 41 20 20 20 20 80 BO

  • BO BO 59 59 59 59 P.age *98 .. 0*:r
  • i3b

"99-ar i3Ei

  • NASDATA.l!RP ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH lDEPTH 315 c 1 37 39 44 41
  • 10 0.588 .875 0.020 41 315 c 2 33 38 47 46
  • 10 0.588 .875 0.020 41 315 c 3 71 76 60 53
  • 10 0.588 .875 0.020 41 315 c 4 23 27 13 18
  • 10 0.588 .875 0.020 41 315 D 1 27 29 31 28
  • 10 0.588 .688 0.016 33 315 D 2 26 24 19 18
  • 10 0.588 .688 0.016 33 315 D 3 77 66 49 63
  • 10 0.588 .688 0.016 33 315 D 4 32 16 NQD 30 * . 10 0.588 .688 0.016 33 317 A 1 80 82 82 83
  • 2 0.078 0.07.8 0.038 76 317 A 2 77 80 79 83
  • 2 0.078 0.078 0.038 76 317 A 3 75 78 77 77
  • 2 0.078 0.078 0.038 76 317 A 4 75 77 82 82 l 2 . 0.078 0.078 0.038 76 317 B 1 82 83 82 82
  • 4 0.078 0.078 0.040 80 317 8 2 68 85 90 84
  • 4 0.078 0.078 0.040 BO 317 . B 3 77 78 77 76 l 4 0.078 0.078 0.040 80 317 B 4 82 82 82 85
  • 4 0.078 0.078 0.040 BO 317 c 1 83 79 75 82
  • 8 0.078 0.078 0.040 BO 317 c 2 84 89 91 81
  • 8 0.078 0.078 0.040 BO 317 c 3 77 75 77 77
  • 8 0.078 0.078 0.040 80 317 c 4 82 76 80 79
  • 8 0.078 0.078 0.040 80 317 D 1 75 74 70 72
  • 10 0.078 0.078 0.032 64 317 D 2 54 62 60 68
  • 10 0.078 . 0.078 0.032 64 . 317 D 3 49 60 60 61
  • 10 0.078 0.078 0.032 64 317 D 4 64 62 61 59
  • 10 0.078 0.078 0.032 64 (:. 319 A 1 21 60 45 40
  • 4 0.190 0.190 0.012* 25 ',\ 319 A 2. 19 41 34 14
  • 4 0.190 0.190 0.012 25 319 A 3 6 37 71 48
  • 4 0.190 0.190 0.012 25 319 A 4 23 39 7 18
  • 4 0.190 0.190 0.012 25 319 B 1 27 27 38 44
  • 5 0.190 0.190 0.014 29 319 B 2 26 13 33 22 l 5 0.190 0.190 0.014 29 :m B 3 1 33 15 60 l 5 0.190 0.190 0.014 29 319 B 4 16 NQD NQD NQD
  • 5 0.190 0.190 0.014 29 319 c 1 80 NQD 24 NQD
  • 9 0.190 0.190 0.013 27 319 c 2 47 17 10 NQD
  • 9 0.190 0.190 0.013 27 319 c 3 NOD 49 NQD NQD i 9 *0.190 0.190 0.013 27 319 c 4 ND ND ND ND
  • 9 0.190 0.190 0.013 27 319 D 1 INC NQD ND NQD t 11 0.190 0.190 0.012 25 319 D 2 32 23 72 29
  • 11 0.190 0.190 0.012 25 319 D 3 NQD 56 NOD 58 ' 11 0.190 0.190 0.012 25 319 D 4 ND NIJD ND NQD
  • 11 0.190 0.190 0.012 25 320 A 1 92 93 90 87
  • 2 0.080 0.080 0.040 83 320 A 2 86 88 94 95
  • 2 o.oeo 0.080 0.040 83 320 A 3 95 83 81 86
  • 2 0.080 0.080 0.040 83 320 A 4 88 84 85 86
  • 2 0.080 o.oeo 0.040 83 320 B 1 67 87 77 86
  • 5* 0.080 0.080 0.040 83 320 B 2 77 83 86 85
  • 5 0.080 0.080 0.040 83 320 B 3 82 81 85 73 l 5 0.080 0.080 0.040 83 320 B 4 86 87 86 82
  • 5 0.000 0.080 0.040 83 320 c. 1 INC 57 74 77
  • B 0.080 0.080 0.038 79 320 c ., 82 81 81 75
  • 8 0.080 0.080 0.038 79 .. ,. 320 c 3 77 72 73 82
  • 8 0.080 0.080 0.038 79 320 c 4 78 78 82 82
  • 8 0.080 0.080 0.038 79 320 D 1 INC 86 87 85
  • 10 0.080 0.080 0.036 75 Page 100 of 136 WASDATA."RP
  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH %DEPTH -----------------------------------------------------------------------------------------------

320 D 2 72 B2 79 79 t 10 O.OBO O.OBO 0.036 75 320 D 3 70 6B 65 72 t 10 o.oBo O.OBO . 0.036 75 320 . D 4 7B '79 BO 74 t 10 0.0BO O.OBO 0.036 75 369 A 1 70 74 64 70 t 10 0.07B 0.07B 0.040 BO 369 A 2 B3 67

  • t t 10 0.078 0.07B 0.040 BO 369 A 3 6B 72 62 62
  • 10 0.07B 0.07B 0.040 BO 369 A 4 74 64 67 65
  • 10 0.07B 0.07B 0.040 BO 369 B 1 56 60 40 50
  • 10 0.109 0.109 0.030 60 369 B 2 55 55 t t t 10 0.109 0.109 0.030 60 369 B 3 50 58 51 67 t 10 0.109 0.109 0.030 60 369 B 4 52 40 49 4B t 10 0.109 0.109 0.030 60 369 c 1 46 71 36 73 t 10 0.187 0.1B7 0.020 40 369 -c 2 81 62 t t t 10 0.1B7 0.187 0.020 40 369 c 3 75 74 56 67 t 10 0.187 0.187 0.020 40 369 c 4 32 52 47 4B
  • 10 0.1B7 0.187 0.020 40 369 D 1 60 ND NGD NGD t 10 0.187 0.187 0.015 30 :m D 2 90 35 t
  • t 10 0.187 0.187 0.015 30 369 D 3 63 62 56 35
  • 10 0.187 0.1B7 0.015 30 369 D 4 51 23 37 29 t 10 0.1B7 0.1B7 0.015 30 369 E 1 ND ND ND ND t 10 o.ooo 0.000 0.000 0 369 E 2 ND HD t
  • t 10 0.000 0.000 0.000 0 369 E 3 ND. ND ND ND
  • 10 o.ooo 0.000 0.000 0 369 E 4 ND ND INC ND ** 10 o.ooo o.ooo o.ooo 0 370 A 1 62 60 66 65 t 15 0.07B. 0.078 0.040 BO ** 370 A 2 75 79 t t t 15 0.07B 0.07B 0.040 80 370 A 3 5B 5B 71 67
  • 15 0.078 0.078 0,040 BO ; 370 A 4 66 66 66 70 t 15 0.078 0.078 0.040 . 80 370 B 1 50 53 44 53
  • 15 0.109 0.109 0.030 60 370 B 2 46 62 t *
  • 15 0.109 0.109 0.030 60 370 B 3 67 6B 47 33
  • 15 0.109 0.109 0.030 60 370 B 4 49 45 45 47
  • 15 0.109 0.109 0.030 60 370 c 1 60 57 41 44 t 15 0.187 0.1B7 0.020 40 370 c 2 34 32 * *
  • 15 0.1B7 0.1B7 0.020 40 370 c 3 60 54 34 60 t 15 0.1B7. 0.187 0.020 40 370 c 4 26 20 14 27 t 15 0.1B7 0.1B7 0.020 40 370 D 1 78 NGD NGD 13 t 15 0.187 0.187 0.015 30 370 D 2 NGD NGD t
  • t 15 0.1B7 0.1B7 0.015 30 370 D 3 NGD 80 64 '71 t 15 0.187 0.187 0.015 30 370 D 4 NGD 55 55 31 ' 15 0.187 0.187 0.015 30 370 E 1 ND ND ND ND t 15 0.000* 0.000 0.000 o* 370 E 2 ND ND t *
  • 15 o.ooo o.ooo 0.000 0 370 E 3 ND ND ND ND
  • 15 o.ooo o.ooo o.ooo 0 370 E 4 ND ND ND ND t 15 o.ooo 0.000 o.ooo 0 371 A 1 59 69 68 62 t 20 0.078 0.07B 0.040 . BO 371 A 2 13 58 t
  • t 20 0.078 0.078 0.040 BO 371 A 3 54 55 54 50 t 20 0.078 0.078 0.040 BO 371 A 4 60 59 49 54 t 20 0.078 0.078 0.040 80 371 B 1 42 62 76 51 t 20 0.109 0.109 0.030 60 371 B 2 31 42 t
  • t 20 0.109 0.109 0.030 bO 371 B 3 10 49 23 40 t 20 0.109 0.109 0.030 60
  • 371 B 4 45 34 36 34 t 20 0.109 0.109 0.030 60 371 c 1 20 32 61 34
  • 20 0.1B7 0.1B7 0.020 40 371 c 2 13 NGD * *
  • 20 0.187 0.187 0.020 40

\ * {(. "',_* ;. :GADATA.MRP ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 382 D 382 D 382 D 382 D 382 E 382 E 382 E 382 E 383 D 383 D 383 D 383 D 383 E 383 E 383 E .383 E 384 D 384 D 384 D 384 D 384 E 2 3 4 1 2 .., *-' 4 2 3 4 1 2 ,) 4 2 . .) 4 384 E* 2 384 E 3 384 E 4 3B5 D 1 385 D 2 385 D 3 385 D 4 385 E 1 385 E . 2 385 t 385 E 386 D 386 D 386 D 386 D 386 E 386 E 386 E 386 E 387 D 387 D 387 D 387 D 387 E 387 E 387 E 387 E 388 D 388 [I n ._>\:lll 388 D 388 E .., _, 4 2 4 1 2 3 4 " ;. ..) 4 2 3 4 1 2 ,. .., 4 1 26 26 20 21 20 20 28 30 ND ND ND NGD ND ND ND ND 43 29 ..,., .. \.,;; 36 39 28 37 33 46 15 51 25 38 NGD 33 26 40 36 38 32 37 33 33 20 41 34 43 38 33 35 39 32 70 65 68 70 80 26 23 27 27 NGD 27 23 23 ND ND ND ND ND ND ND ND 36 29 34 36 48 27 39 43 38 35 ,) ... 28 a trn 27 23 50 35 36 32 37 33 33 24 37 41 40 36 45 44 43 34 71 65 68 70 73 18 30 27 34 2 34 22 27 ND ND ND ND ND ND ND ND 23 31 33 37 44 36 36 39 41 *30 29 28 35 32 30 16 34 36 l 58 34 35 18 38 36 43 33 40 46 47 38 71 70 68 68 78 19 34 18 27 NOD 34 17 24 ND ND ND ND ND ND ND ND 48 34 38

  • 30
  • INC 36 32 36 25 24 21
  • 21 42 34 37 29 38 34 35 22 40 50 48 35 46 48 36 40 72 65 69 71 81 i
  • i *
  • i * * * * *
  • 31
  • 33
  • 31 * * * *
  • 31
  • 31 l * * *
  • l *
  • l * * * * * *
  • i * * * *
  • AI 30.8 30.8 30.8 30.S 26.2 26.2 26.2 26.2 11. 5 11.5 11. 5 11.5 11.-8 11.8 11.8 11.8 51.8 51.8 51.8 51.S .46.3 46.3 46.3 46.3 52.1 52.1 52.1 52.1 45.8 45.8 45.8 45.8 52.8 52.e 52.8 52.8 50.4 50.4 50.4 50.4 57. 9 57.9 57.9 57.9 54.9 54.9 54.9 54.9 91.2 91.2 91.2 91.2 92.2 MAI 31.5 31.5 31. 5 31.5 33.3 33.3 33.3 33.3 12,1 12.1 12.1 12.1 14.2 14.2 14.2 14.2 53.0 :!3.0 53.0 53.0 53.3 53.3 53.3 53.3 52.3 52.3 52.3 . 52.3 50.4 50.4 50.4 50.4 53.3 53.3 53,3 53.3 55.6 55.6 55.6 55.6 58.9 58.9 58.9 58.9 60.0 60.0 60.0 . 60.0 91.4 91.4 91.4 91.4 98.4 MP 77.6 77.6 77.6 77.6 58.6 58.6 58.6 58.6 26.1 26.1 26.1 26.1 24.2 24.2 24.2 24.2 78.2 78.2 78.2 78.2 71.5 71.5 71.5 71.5 73.7 73.7 73.7 73.7 60.5 60.5 60.5 60.5 75.4 75.4 75.4 75.4 67.6 67.6 67.6 67.6 90.6 90.6 90.6 90.6 78.2 78.2 78.2 78.2 99 .6 . 99.6 99.6 99.6 100.0 AS 45.3 45.3 45.3 45.3 50.2 50.2 50.2 50.2 Page 102 of 136 MAS DENT 47.3 47.3 47.3 47.3 50.2 50.2 50.2 50.2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 '; .. 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 AXIAL 0.20 0.20 0.20 0.20 0.20 0.20 (l.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.-20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 ().20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 CIRC DEPTH 0.588 0.588 (1.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0;588 0.588 0.588 0 .* 588 0.588 0.588 0.588 0.588 0.588 0.588 . 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 30 30 30 30 30 30 30 30 20 20 20 20 20 20 20 20 40 4(1 40 40 40 40 40 40 . 50 50 50 50 50 50 so 50 61) 60 60 60 60 60 60 60 80 80 80 BO 80 80 80 80 100 100 100 100 100 .1

-* '-'. f. Page 103 of 136 IGADATA .11RP ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI MAI MP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------ 388 E 388 E 388 E 389 D 389 D 389 D 389 D 389 E 389 E 389 E 389 E 390 D 390 D 390 D 390 D 390 E 390 E 390 E 390 391 D 391 D 391 D 391 D 391 E 391 E 391 E 391 E 392 D 392 D 392 D 392 D 392 E 392 E 392 E 3q2 E 393 D 393 D 393 D 393 D 393 E 393 E 393 E 393 E 394 D 394 D 394 D 394 D 394 E 394 E 394 E 394 E 395 D 395 D 2 3 4 2 3 4 1 2 3 4 1 ') .. 3 4 1 2 3 4 2 3 4 1 2 ,. 4 1 2 3 4 ' L r, i.. 3 4 1 2 3 4 1 2 3 4 2 .,. 4 2 .,. 4 1 2 75 68 75 31 26 33 35 INC INC INC INC ND ND ND ND INC ND ND ND 58 19 30 32 46 24 NQD 40 38 31 26 50 46 31 31 43 27 35 38 44 33 36 36 42 66 51 47 39 47 43 29 34 71 68 73 68 45 32 19 29 35 INC INC INC INC

  • ND ND ND ND ND ND ND 41 28 30 38 64 29 72 46 65 34 53 38 39 38 40 41 36 38 36 42 24 40 38 47 62 55 40 39 52 42 31 25 77 62 73 79 76
  • 75 76 35 31 23 20 36 38 34 12 INC INC INC INC INC .INC INC INC NQD NQD ND ND ND ND ND ND INC tlD ND ND ND ND ND ND 36 38 32 24 29 28 42 . 33 40 46 32 33 INC 36 41 41 56 39 34 31 26 44 40 47 44 50 31 36 32 25 38 40 38 49 38 45 36 36 44 36 44 45 37 39 36 37 33 47 67 64 57 53 47 47 42 36 51 50 44 46 36 28 33 19 76 78 61 69 73 l
  • l * ' * * *
  • NGD * * *
  • t t * * *
  • g * *
  • t i i g * *
  • t * * *
  • g l i * * *
  • l
  • t 92.2 92.2 92.2 43.3 43.3 43.3 43.3 32.4 32.4 32.4 32.4 21.5 21.S 21.5 21.5 18.1 18.1 18.1 18.1 43.9 43.9 43.9 43.9 41.9 41.9 41.9 41.9 45.6 45.6 45.6 45.6 44.3 44.3 44.3 44.3 53.9 53.9 53.9 53.9 54.2 54.2 54.2 54.2 58.2 58.2 58.2 58.-2 48.0 48.0 48.0 48.0 82.0 82.0 98.4 98.4 98.4 43.9 43.9 43.9 43.9 41.2 41.2 41.2 41.2 ,,., .,.

22.3 .,., /.i.1J 22.3 22.1 22.1 22.1 22.1 44.9 44.9 44.9 44.9 47.6 47.6 47.6 47.6 45.8 45.B 45.8 45.8 51.3 51.3 51.3 51.3 56.0 56.0 56.0 56.0 60.4 60.4 60.4 60.4 59.8 59.B 59.8 59.B 57.0 57.0 57.0 57.0 83.6 83.6 100.0 100.0 100.0 79.2 79.2 79.2 79.2 62.6 62.6 62.6 62.6 63.0 63.0 63.0 63.0 51.3 51.3 51.3 85.4 85.4 85.4 85.4 69.8 69.8 "69.8 69.8 77 .6 77.6 77.6 77.6 69.7 69.7 69.7 69.7 81.5 81.5 81.5 81.5 73.6 73.6 73.6 73.6 91.3 91.3 91.3 91.3 73.5 73.5 73.5 73.5 100.0 100.0 59 ,(l 59.0 59.0 59 ,(i 39.4 39.4 39.4 39.4 36.9 36. :;* 36.9 36.9 60.5 60.5 60.S 60.5 57 .7 57. 7 57.7 57.7 61.1 61.1 61.l 61.l 64.7 64.7 64.7 64.7 59.2 59.2 59.2 59.2 40.9 40.9 40.9 40.9 37.7 .,, ., .),,, 37.7 61.9 61. 9 61.9 61.9 57.7 57.7 57.7 57.7 t.1.1 61.1 61.1 61.1 64.7 64.7 64.7 64.7 2 2 2 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4: 4 4 4 0.20 0.20 (l.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.588 100 0.588 100 o. 588 100' 0.588 30 0.588 30 0. 588 30 0.588 30 0.588 30 0.588 30 0. 588 30 0.588 30 0.588 20 0.588 20 0.588 20 0.588 20 0.588 20 0.588 20 0. 588 20 0.588 20 0.588 40 0.588 40 o. 588 40 0.588 40 0.588 40 0.588 40 0.588 40 0.588 40 0.588 50 o. 588 50 0.588 so 0.588 50 0.588 5(1 0.588 50 o. 588 so o. 588 0.588 60 0.588 60 0.588 60 0.588 60 0.588 60 0.588 60 0.588 b(l 0.588 6(1 0. 588 BO o. 588. 80 o.588 eo 0.588 80 o. 588 eo 0.588 80 o. 588 so 0.588 30 0.588 100 0. 588 1(10

  • /,. *.: ' .* ISADAT A . MRP ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 395 D 3 395 D 4 395 E , 1 395 E 2 395 E 3 395 E 4 396 D 1 396 D 2 396 D 3 396 D 4 396 E 1 396 E 2 396 E *3 396 E 4 397 D 1 397 D 2 397 D 3 397 J 4 397 E 1 397 E 2 397 E 3 397 E 4 398 D 1 398 D 2 398 D 3 398 D 4 398 E 1 398 E 2 398 E 3 398 E 4 399 D 1 399 D 2 399 D 399 D 4 399 E 1 399 E 2 399 E 3 399 E 4 400 D 1 400 D 2 400 D 3 400 D 4 400 E 1 400 E 2 400 E 3 400 E 4 401 D 1 401 D 2 401 D 3 401 D 4 401 E 401 E 2 401 E 3 72 72 48 66 71 79 59 60 64 56 63 59 37 41 29 23 38 43 20 32 33 31 34 INC 33 32 25 15 ND 36 25 23 29 38 9 14 ND 22 25 ND 32 25 2_4 ___ --53 ND ND ND ND NQD NQD ND ND ND ND ND ND 15 NUD ND ND 43 43 31 31 t 49 28 . 35 49 46 35 35
  • 57 33 26 34 31 29 27 39 38 30 31 INC 27 20 17 34 30 26 28 79 75 74 74 75 68 75 69 61
  • 58 49 58 60 66 64 74 61 64 67 39 25 45 36 56 28 64 18 25 27 29 36 15 ND t 21 ND ND ND ND ND ND ND ND 42 31 58 35 38 35 46 36 31 30 37 39 INC 18 29 20 80 75 71 77 56 55 60 64 64 75 65 63 67 14 31 34 36 59 31 36 35 18 28 31 29 14 27 27 27 ND ND 22 ND ND ND 21 ND 44 52 37 38 34 33 33 32 32 40 35 33 20 56 26 BO 76 68 74 56 55
  • t t
  • t * *
  • NQD t l * *
  • l 43
  • t
  • 36 t t t
  • t t 62 AI 82.0 82.0 79.8 79.8 79.8 79.B 42.3 42.3 42.3 42.3 31.3 31.3 31.3 31.3 29.6 29.6 29.6 29.6 24.9 24.9 24.9 24.9 12.5 12.5 12.5 12.5 13.4 13.4 13.4 13.4 54*.2 54.2 54.2 54.2 49.6 49.6 49.6 49.6 50.4 50.4 50.4 50.4 39.8 39.8 39.8 39.8 81.9 81.9 81.9 81. 9 70.2 70.2 70.2 MAI 83.6 83.6 68.4 88.4 88.4 88.4 44.5 44.5 44.5 44.5 40.5 40.5 40.5 40.5 30.6 30.6 30.6 30.6 29.B 29.8 29.8 29.8 12.8 12.B 12.8 12.8 14.6 14.6 14.6 14.6 54.8 54.B 54.8 54.8 56.3 56.3 56.3 56.3 51.4 51.4 51.4 51.4 47.0 47.0 47.0 47.0 84.2 84.2 84.2 84.2 77.3 77.3 77.3 NP 100.0 100.0 96.1 96.1 96.1 96.1 80.5 80.5 80.5 80.5 72.9 72.9 72.9 72.9 62.9 62.9 62.9 62.9 61. 9 61.9 bl.9 61.9 23.2 23.2 23.2 23.2 36.2 36.2 . 36.2 36.2 84.4 84.4 84.4 84.4 72.4 72.4 72.4 72.4 83.7 83.7 83.7 83.7 71.B 71.8 71.8 71.B 100.0 100.0 100.0 100.0 92.8 92.8 92.8 AS 58.2 58.2 58.2 58.2 55.4 55.4 55.4 55.4 49.8 49.8 49.8 49.8 45.6 45.6 45.b 45.6 26.0 26.0 26.0 26.0 54.9 54.9 54.9 54.9 Page 104 of 136 MAS DENT 58.2 58.2 58.2 58.2 55.5 55.5 55.5 *ss. 50.7 50.7 50.7 50.7 50.1 50.1 50.1 50.1 26.0 2b.O
  • 2b.O 26.0 54.9 54.9 54.9 54.9 4 4 4 4 4 4 6 6 b 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 AXIAL 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20-0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 . 0.20 0.20 0.20 0.20 0.20 CIRC DEPTH 0.588 0.588 0.588 0.588 :), 588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 (J.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 0.588 100 100 100 100 100 100 30 30 30 30 30 3(1 30 30 20 20 20 20 20 20 20 20 40 40 40 . 40 40 40 40 40 so 50 50 50 so 50 50 50 60 60 60 60 60 60 60 60 80 BO BO BO BO so BO
  • (. ,. Page 105 of 136 !GADATA. !'!RP ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI MAI MP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

401 !:. 402 D 402 D 402 D 402 D 402 E 402 E 402 E 402 E 403 D 403 [) 403 D 403 D 403 E 403 E 403 E 403 404 D 404 J 404 ti 404 ii 404 E 404 E 404 E 404 E 405 D 405 D 405 D 405 D 405 E 405 E 405 E 405 E 4{lb [* 406 D 406 D 406 [! 406 E 406 E 406 E 406 E 407 D 407 D 407 D 41)7 D 407 E 407 E 407 E 407 E 408 D 408 D 408 r 408 D 4 2 3 4 i. 3 4 1 2 3 4 2 3 4 2 3 4 2 "r *' 4 2 r *' 4 2 4 2 *' 4 1 2 3 4 2 "r *J 4 1 2 3 1 2 3 4 63 76 66 69 72

  • 59 61 61 ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 55 43 54 43 46 33 30 21 "' Oi. ... 58 36 38 32 37 38 63 45 65 41 45 28 42 29 81 74 82 80 57 70 *66 70 67 70 59 60 62 ND ND ND ND
  • ND ND ND ND ND ND ND ND ND ND ND 50 50 . 54 42 37 47 33 ""' '""' 60 55 58 31 43 32 35 49 63 58 63 39 41 29 44 20 81 75 82 83 57 64 66 69 70 67 57 63 64 ND ND ND ND 30 ND ND ND ND ND
  • ND ND ND
  • ND 41 47 48 46 48 34 26 34 52 55 62 50 50 35 36 33 64 51 56 37 47 32 55 29 78 74 82 84 57 68 67 72 72 70 56 69 64 ND ND ND .ND 31 ND ND ND ND HD ND ND . NO ND ND ND 49 49 58 43 15 31 44 36 63 50 62 33 54 27 45 36 66 53 56 42 48 33 55 35 82 74 83 76 t .
  • t t 50 t t t
  • t t l ND t ND t t l ND t
  • t l l
  • t t
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  • i; . ...... Page 111 of 136 ISADATA.HRP ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI llAI HP AS MAS DENT AXIAL CIRC DEPTH 441 E 441 E 441 E 442 D 442 D 442 D 442 D 442 E 442 E 442 E 442
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  • Page 112 of 136 IGADATA.MRP iD DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 Al MAI HP AS MAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

448 D 448 D 448 E "48 E 448 E 448 E 449 D 449 D 449 D 449 D 449 E 449 E 449 E 449 E 450 D 450 n 450 D 450 D 450 E 450 E 450 E 450 E 451 D 451 D 451 D 451 D 451 E 451 E 451 E 451 E 464 D 464 D 464 D 464 D 464 E 464 E 464 E 464 E 465 A 465 A 465 A 465 B 465 B 465 B 4'65 c 465 c 465 c 465 D 465 D 465 D 465 D 465 E 465 E 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 3 4 1 3 4 3 4 1 2 ,. " 4 1 2 66 37 ND 22 ND ND 42 42 29 26 47 48 45 68 BO 69 76 61 75 70 65 68 77 67 68 64 62 64 68 66 ND ND 31 NGD ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 78 9 ND 18 ND 6 51 45 43 26 49 43 45 16 81 69 76 74 76 70 70 75 81 71 77 73

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  • 10 0.375 .006 0.020 42 209 B 3 13 2B 11 61
  • 10 0.375 .006 0.020 42 209 B 4 30 27 18 18 t 10 0.375 .006 0.020 42 209 c 1 60 23 NOD 34 t . 9 0.375 .006 0.017 35 209 c 2 45 52 67 61
  • 9 0.375 .006 0.017 35 209 c 3 16 30 76 44
  • 9 0.375 .006 0.017 35 209 c 4 17 18 15 13
  • 9 0.375 .006 0.017 35 209 D 1 54 NOD 27 NOD
  • 6 0.375 .006 0.018 38 209 D 2 82 62 64 74
  • 6 0.375 .006 0.018 38 209 D 3 23 44 24 79 t b 0.375 .006 0.018 38 209 D 4 13 13 17 15 t 6 0.375 .006 0.018 3B 209 E 1 60 16 NOD 35 t 4 0.375 .006 0.020 42 209 E 2 56 50 50 53 t 4 0.375 .006 0.020 42 209 E 3 84 35 26 10
  • 4 0.375 ,006 0.020 42 209 E 4 14 9 17 17 t 4 0.375 .006 0.020 42 209 F 1 42 23 9 ND
  • 2 o.:m .006 0.017 35 209 F 2 61 58 58 66
  • 2 0.375 .006 0.017 35 209 F 3 ND 24 20 27 t 2 0.375 .006 0.017 35 209 F 4 11 11 21 21 t 2 0.375 .006 0.017 35 210 A 1 76 60 72 33
  • 0.375 .006 0.025 52 210 A 2 42 51 45 51 t 0.375 .006 0.025 52 ,. 210 A 3 32 38 41 59
  • 0.375 .006 0.025 52 210 A 4 40 41 45 44
  • 0.375 .006 0.025 52 210 B 1 63 62 57 72 t 10 0.375 .006 0.025 52 Page 117 of 136 * . CIRDATA.KRP

_ ___ :::: __ ___ 210 B 2 52 69 86 75

  • 10 o.:m .006 0.025 52 210 B 3 45 35 32 38
  • 10 0.375 .006 0.025 52 210 B 4 38 29 32 40
  • 10 0.375 .006 0.025 52 210 c 1 69 56 71 42
  • 8 0.375 .006 0.025 52 210 c 2 44 55 38 57
  • 8 0.375 .006 0;025 52 210 c 3 45 41 47 48
  • 8 0.375 .006 0.025 52 210 c 4 35 32 35 38
  • 8 0.375 .006 0.025 52 210 D 1 72 15 53 59
  • 6 0.375 .006 0.025 52 210 D 2 71 73 68 77 t 6 0.375 .006 0.025 52 210 D 3 43 46 80 60
  • 6 0.375 .006 0.025 52 210 D 4 39 46 47 47
  • 6 0.375 .006 0.025 52 210 E 1 NQD 49 so 53
  • 4 0.375 .006 0.026 54 210 E 2 51 64 54 55
  • 4 0.375 .006 0.026 54 210 E 3 46 48 34 21
  • 4 0.375 .006 0.026 54 210 E 4 57 35 43 46 t 4 0.375 .006 0.026 54 210 F 1 58 78 82 57
  • 2 0.375 .006 0.027 56 210 F 2 51 49 51 53
  • 2 0.375 .006 0.027 56 210 F 3 32 36 42 17 l 2 0.375 .006 0.027 56 210 F 4 36 47 40 45
  • 2 0.375 .006 0.027 56 211 A 1 62 52 51 56 t --0.375 .006 0.030 63 211 A 2 53 54 INC 59 * --0.375 .006 0.030 63 211 A 3 55 41 33 39 * --0.375----.006 0.030 63 211 A 4 54 51 45 42 * --o.:m .006 0.030 63 *i* 211 B 1 62 57 49 50 t 10 0.375 .006 0.030 63 211 B 2 57 68 65 67
  • 10 0.375 .006 0.030 63 211 B 3 39 32 43 .41
  • 10 0.375 .006 0.030 63 211 B 4 50 33 39 . 39
  • 10 0.375 .006 0.030 63 211 c 1 52 56 65 60 i 8 0.375 .006 0.030 63 211 c 2 63 57 63 55
  • 8 0.375 .006 0.030 63 211 c 3 48 41 41 *42
  • 8 0.375 .006 0.030 63 211 c 4 39 46 37 37
  • 8 0.375 .006 0.030 63 211 D 1 63 56 79 68
  • 6 0.375 .006 0.032 67 211 D 2 63 59 63 59
  • 6 0.375 .006 0.032 67 211 D 3 44 39 43 46
  • b 0.375 .006 0.032 67 211 D 4 47 46 36 39 .
  • b 0.375 .006 0.032 67 211 E 1 60 45 59 45 t 4 o.:m .006 0.031 65 211 E 2 61 62 59 62
  • 4 0.375 .006 0.031 65 211 E 3 53 35 44 38
  • 4 0.375 .006 0.031 65 211 E 4 53 52 37 39
  • 4 0.375 .006 0.031 65 211 F 1 65 60 73 62
  • 3 0.375 .006 0.034 71 211 F 2 63 59 66, 57
  • 3 0.375 .006 0.034 71 211 F 3 35 39 43 54 t 3 0.375 .006 0.034 71 211 F 4 49 54 37 39 t 3 0.375 .006 0.034 71 212 A 1 92 92 90 93 * --0.375 .006 0.049 100 212 A 2 75 93 88 83 * --0.375 .006 0.049 100 212 A 3 79 82 87 84 * --0.375 .006 0.049 100 212 A 4 90 91 92 92 * --0.375 .006 0.049 100 212 B 1 85 89 87 90 t 11 0.375 .006 0.049 100 212 B 2 90 86 88 87 l 11 0.375 .006 0.049 100 212 B 3 66 76 78 75 l 11 0.375 .006 0.049 100 '. .* 212 B 4 87 88 88 83 . l 11 0.375 .006 0.049 100 212 c 1 87 79 89 87 l 8 0.375 .006 0.049 100 212 c 2 88 89 89 90 l B 0.375 .006 0.049 100 *) "l Page 118 of 136
  • CIRDATA.llRP ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH lDEPTH -----------------------------------------------------------------------------------------------

212 c 3 76 79 79 79

  • B 0.375 .006 0.049 100 212 c 4 B6 BB 8B B6 ' B 0.375 .006 0.049 100 212 D 1 B9 BB 87 BB
  • 6 0.375 .006 0.049 160 212 D 2 B9 BB 76 80 ' 6 0.375 .006 0.049 100 212 D 3 66 80 77 71
  • 6 0.375 .006 0.049 100 212 D 4 88 88 86 83
  • 6 0.375 .006 0.049 100 212 E 1 89 89 89 87
  • 4 0.375 .006 0.049 100 212 E 2 90 85 86 88
  • 4 0.375 .006 0;049 100 212 E 3
  • 79 83 78
  • 4 0.375 .006 0.049 100 212 E 4 89 89 88 87
  • 4 0.375 .006 0.049 100 212 F 1 86 89 88 90
  • 2 0.375 .006 0.049 100 212 F 2 88 89 89 88
  • 2 0.375 .006 0.049 100 212 F 3 80 76 84 85
  • 2 0.375 .006 0.049 100 212 F 4 89 89 BB 86
  • 2 0.375 .006 0.049 100 '/-* :. . ,
  • Page 119 of 136
  • llASDATA.AXI ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL . DEPTH %DEPTH -----------------------------------------------------------------------------------------------

168 A 1 55 60 62 64 59 --0.110 0.110 0.029 60 168 A 2 58 61 61 t t --0.110 0.110 0.029 bO 168 A 3 57 59 50 53 * --0.110 0.110 0.029 60 168 B 1 52 60 62 54 52 2 0.110 0.110 0.029 60 168 B 2 58 56 56 t t 2 0.110 0.110 0.029 60 168 B 3 57 48 57 55

  • 2 0.110 0.110 0.029 60 168 c 1 54 61 62 59 51 4 0.110 0.110 0.030 63 168 c 2 58 56 56 *
  • 4 0.110 0.110 0.030 63 168 c 3 59 59 52 51
  • 4 0.110 0.110 0.030 63 168 D 1 57 59 60 58 48 6 0.110 0.110 0.030 63 168 D 2 57 59 55 t *t 6 0.110 0.110 0.030 63 168 D 3 45 50 59 59 ** 6 0.110 0.110 0.030 63 168 E 1 59 62 57 60 53 8 0.110 0.110 0.030 63 168 E 2 60 62 58 *
  • 8 0.110 0.110 0.030 63 168 E 3 61 60 62 57
  • 8 0.110 0.110 0.030 63 168 F 1 63 62 57 65 58 10 0.110 0.110 0.028 58 168 F 2 60 65 59
  • t 10 0.110 0.110 0.028 58 168 F .. 62 62 64 66 l 10 0.110 0.110 0.028 58 ,) 169 A 1 61 59 65 63 65 --0.109 0.109 0.028 58 169 A 2 58 57 58 58 t --0.109 0.109 0.028 58 169 A 3 66 52 54 64 t --0.109 0.109 0.028 58 169 B 1 64 67 64 64 63 2 0.109 0.109 0.029 60 169 B 2 60 61 58 60 t 2 0.109 0.109 0.029 60 169 B 3 63 50 59 72
  • 2 0.109 0.109 0.029 60 i:* 169 c 1 59 66 58 60 62 4 0.109 0.109 0.028 58 ' .. 169 c 2 52 54 53 60 t 4 0.109 0.109 0.028 58 169 c 3 59 64 45 39
  • 4 0.109 0.109 0.028 58 169 D 1 60 68 62 62 62 6 0.109 0.109 0.029 60 169 D 2 60 61 60 59 t 6 0.109 0.109 0.029 60 169 D 3 61 70 55 64 t 6 0.109 0.109 0.029 60 169 E 1 '60 65 62 64 63 7 0.109 0.109 0.028 58 169 E 2 58 58 59 57 t 7 0.109 0.109 0.028 58 169 E 3 71 70 72 57
  • 7 0.109 0.109 0.028 58 169 F 1 57 60 65 67 62 10 0.109 0.109 0.028 58 169 F 2 57 56 52 53
  • 10 0.109 0.109 0.028 58 169 F 3 74 66 72 72 t 10 0.109 0.109 0.028 58 170 A 1 65 62 62 64 53 --0.109 0.109 0.029 59 170 A 2 58 56 59 62 * --0.109 0.109 0.029 59 170 A 3 67 52 52 50 * --0.109 0.109 0.029 59 170 B 1 64 54 60 62 57 2 0.109 0.109 0.029 59 170 B 2 56 56 56 53 t 2 0.109 0.109 0.029 59 170 8 -3 59 68 57 64 t 2 0.109 0.109 0.029 59 170 c 1 60 51 54 57 52 4 0.109 0.109 0.029 59 170 c 2 50 50 51 51
  • 4 0.109 0.109 0.029 59 170 c 3 52 62 63 52 t 4 0.109 0.109 0.029 59 170 D 1 53 54 56 57 48 6 0.109 0.109 0.029 59 170 D 2 52 53 58 55
  • 6 0.109 0.109 0.029 59 170 D 3 58 29 37 43
  • 6 0.109 0.109 0.029 59 170 E 1 63 60 65 62 60 8 0.109 0.109 0.029 . 59 170 E 2 58 61 52 56
  • 8 0.109 0.109 0.029 59
  • 170 E 3 57 64 49 45 t 8 0.109 0.109 0.029 59 170 F 1 62 62 66 67 61 10 0.109 0.109 0.029 59 170 F 2 56 61 58 55 t 10 0.109 0.109 0.029 59

120 of 136 WASDATA.AXI

  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH lDEPTH -----------------------------------------------------------------------------------------------

170 F 3 68 70 64 49

  • 10 0.109 0.109 0.029 59 178 . A 1 97 97 95 9b 93 --0.050 0.050 0.049 lOQ 178 A 2 97 97 98 97 * --0.050 ' 0.050 0.049 100 178 A 3 95 97 94 89 * --0.050 0.050 0.049 100 178 B 1 73 72 67 68 66 --0.075 0.075 0.037 80 178 B 2 65 70 66 70 * --0.075 0.075 0.037 BO 178 B 3 71 74 68 63 * -0.075 0.075 0.037 BO 178 c 1 56 56 50 51 56 --0.110 0.110 0.027 59 178 c 2 46 53 57 52 * --0.110 0.110 0.027 59 178 c 3 59 60 50 56 * --0.110 0.110 0.027 59 178 D 1 35 41 45 45 35 --0.190 0.190 0.018 39 178 D 2 INC 39 47 52 * --0.190 0.190 0.018 39 178 D 3 34 39 49 33 * -0.190 0.190. 0.018 39 178 E 1 16 20 NQD NQD NQD --0.190 0.190 0.009 20 178 E 2
  • 39 23 23 * --0.190 0.190 0.009 20 178 E 3 34 28 32 47 * --0.190 0.190 0.009 20 178 F 2
  • 22 * * * --2.355 0.125 0.009ID 20 302 A 1 80 76 55 77
  • 2 0.196 .688 0.038 78 302 A 2 70 74 63 68
  • 2 0.196 .688 0.038 78 302 A 3 71 74 75 73
  • 2 0.196 .688 0.038 78 302 B 1 65 64 44 63
  • 2 0.196 .750 0.030 61 302 B 2 64 65 56 59
  • 2 0.196 .750 0.030 61 302 B 3 68 67 70 68
  • 2 0.196 .750 0.030 61 302 c 1 49 44 ND 47
  • 2 0.196 1.500 0.017 35 (. 302 c 2 41 40 43 46
  • 2 0.196 1.500 0.017 35 302 c 3 53 65 72 64 t 2 0.196 1.500 0.017 35 302 D 1 33 45 ND 49
  • 2 0.196 .688 0.010 20 302 D 2 21 25 25 36
  • 2 0:196 .688 0.010 20 302 D 3 70 79 NQD 69
  • 2 0.196 .688 0.010 20 303 A 1 84 85 82 81 .
  • 2 0.588 .813 0.036 73 303 A 2 81 77 78 81
  • 2 o.s00 .813 0.036 73 303 A 3 BO 82 91 78
  • 2 0.588 .813 0.036 73 303 B 1 63 57 57 61
  • 2 o.588 .688 0.028 57 303 B 2 67 54 46 62
  • 2 ' 0.588 .688 0.028 57 303 B 3 54 84 74 77
  • 2 0.588 .688 0.028 57 303 c 1 45 26 38 41
  • 2 0.588 .688 0.018 37 ' 'i 303 c 2 20 39 16 26
  • 2 o.s00 .688 0.018 37 303 c 3 36 NQD NOD NOD
  • 2 0.588 .688 0.018 37 303 D 1 36 NOD 33 NQD 2 0.588 .813 0.015 31 303 D 2 20 33 16 26
  • 2 0.588 .813 0.015 31 303 D 3 ND ND NOD
  • NOD
  • 2 0.588 .813 0.015 31 306 A 1 83 84 82 79
  • 4 0.196 .688 0.040 82 306 A 2 74 73 78 85 t 4 0.196 .688 0.040 82 306 A 3 79 . 89 85 83
  • 4 0.196 .688 0.040 82 306 B 1 65 62 65 63
  • 4 0.196 .750 0.029 59 306 B 2 58 58 64 58
  • 4 0.196 .750 0.029 59 306 B 3 56 60 64 63
  • 4 0.196 .750 0.029 59 306 c 1 42 42 42 46
  • 4 0.196 1.063 0.018 37 306 c 2 51 48 53 52
  • 4 0.196 1.063 0.018 37 306 c 42 50 42 46 t 4 0.196 1.063 0".018 37 i. 306 D 1 26 35 34 31
  • 4 -0 .196 .563 0.011 22 306 D 2 51 61 49 46
  • 4 0.196 .563 0.011 22 306 D 3 13 55 47 42
  • 4 0.196 .563 0.011 22

. . .. . .. .-..:. ______ _: ______ ;_,_ ***--* -*----.. --*--* -.... ___ . Page 121 of 136

  • NASDATA.AXI ID DEF PRO ECTl ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL
  • DEPTH lDEPTH 307 A 1 80 85 82 80 ' 4 0.588 .813 0.035 71 307 A 2 83 82 81 81 t 4 0.588 .813 0.035 71 307 A 3 84 82 71 82
  • 4 0.588 .813 0.035 71 307 B 1 65 60 61 57
  • 4 0.588 .750 0.028 57 307 B 2 66 58 70 66
  • 4 0.588 .750 ().028 57 307 B 3 68 . 54 76 67 t 4 0.588 .750 0.028 57 307 c* 1 44 43 49 40
  • 4 0.588 .750 0.019 39 307 c 2 35 .. 33 79 65
  • 4 0.588 .750 0,019 39 307 c 3 96 98 97 98
  • 4 0.588 .750 0.019 39 307 D 1 36 28 28 17
  • 4 0.588 .813 0.015 31 307 D 2 15 . *. 21 77 87
  • 4 0.588 .813 0.015 31 307 D 3 80 NOD 17 ND
  • 4 0.588 .813 0.015 31 310 A 1 82 81 64 81
  • 8 0.196 .813 . 0.039 80 310 A 2 81 81 76 77
  • 8 0.196 .813 0.039 80 310 A 3 79 82 82 BO
  • 8 0.196 .813 0.039 80 310 B 1 65 60 58 66
  • 8 0.196 .750 0.029 59 310 B 2 61 61 58 58
  • 8 0.1% .750 0.029 59 310 B 3 69 68 68 65 a 8 0.196 .750 0.029 S9 310 c 1 51 50 ND 57 t 8 0.196 .750 0.019 39 310 c 2 42 42 43 42
  • 8 0.196 .750 0.019 39 310 c 3 67 43 53 62
  • 8 0.196 .750 0.019 39 310 D 1 46 39 ND 76 t 8 0.196 .688 0.010 20 310 D 2 27 22 23 42 t 8 0.196 .688 0.010 20 310 D 3 33 62 60 36
  • 8 0.196 .688 0.010 20 r;. 311 A 1 82 83 BO 83
  • 8 0.588 .750 0.038 78 "\ 311 A 2 80 83 74 77 ' 8 0.588 .750 0.038 78 311 A 3 78 79 80 84
  • 8 0.588 .750 . 0,038 78 311 B 1 69 54 49 76
  • 8 0.588 .750 0.030 61 :m B 2 69 56 61 62
  • 8 0.588 .750 0.030 61 311 B 3 68 57 77 67
  • 8 0.588 .750 0.030 61 311 c 1 51 18 30 54 i 8 0.588 .750 0.021 43 311 c 2 66 27 58 56 .
  • 8 0.588 .750 0.021 43 311 c 3 27 13 46 30
  • 8 0.588 .750 0.021 43 311 D 1 41 47 61 16
  • 8 0.588 .813 0.016 33 311 D 2 73 20 21 *INC t 8 0.588 .813 0.016 33 311 D 3 18 14 26 49 t 8 0.588 .813 0.016 33 314 A 1 78 77 76 74
  • 10 0.196 .688 0.038 77 314 A 2 72 74 73 71
  • 10 0.196 .688 0.038 77 314 A 3 71 74 78 73
  • 10 0.196 .688 0.038 77 314 B 1 68 64 71 65
  • 10 0.196 .750 0.031 63 314 B 2 65 64 61 64 t 10 0.196 .750 0.031 63 314 B 3 61 66 71 68 t 10 0.196 ,750 0.031 63 314 c 1 49 57 59 48
  • 10 0.196 .813 0.020 41 314 c 2 48 44 43 .. 43
  • 10 0.196 .813 0.020 41 314 c 3 54 51 . 47 54
  • 10 0.196 .813 0.020 41 314 b 1 36 33 45 67 t 10 0.190 .813 0.012 20 314 D 2 27 34 30 26
  • 10 0.196 .813 0.012 20 314 D 3 9 47 26 NQD
  • 10 0.196 .813 0.012 20 315 A 1 92 85 84 87
  • 10 0.588 1.000 0.039 BO 315 A 2 91 73 89 85
  • 10 0.588 1.000 0.039 80 ** 315 A 3 91 91 88 89
  • 10 0.588 1.000 0.039 80 315 B 1 67 68 59 57
  • 10 0.588 .813 0.029 59 315 B 2 67 63 54 61
  • 10 0.588 0.029 59

. --***********. ... --* .. Page l22 of 136 i llASDATA.AXI I. ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH lDEPTH 315 B 3 7B 76 67 77

  • 10 0.5BB .813 0.029 59 315 c 1 63 61 53 49
  • 10 0.588 .B75 0.020 41 315 c 2 73 37 43 34
  • 10 0.588 .875 0.020 41 315 c 3 76 71 9 57
  • 10 0.588 .875 0.020 41 315 D 1 NQD 33 NQD NQD
  • 10 0.588 .688 0.016 33 315 D 2 87 26 42 21
  • 10 0.588 .688 0.016 33 315 D 3 57 39 51 NQD
  • 10 0.588 .688 0.016 33 317 A 1 B2 79 Bl BO
  • 2 0.078 0.07B 0.038 76 317 A 2 79 79 78 79
  • 2 0.078 0.078 0.038 76 317 A 3 77 78 78 76
  • 2 0.078 0.078 0.038 76 317 B 1 B2 B3 B4 82
  • 4 0.07B 0.07B 0.040 BO 317 B 2 81 Bl 82 Bl
  • 4 0.078 0.078 0.040 BO 317 B 3 79 BO 7B B2 *a 4 0.078 0.078 0.040 BO 317 c 1 BO 79 82 79
  • 8 0.07B 0.07B 0.040 80 317 c 2 77 78 Bl 79
  • 8 0.07B 0.078 0.040 BO 317 c 3 78 7B 69 68
  • 8 0,078 0.078 0.040 80 317 D 1 63 66 69 64 *
  • 10 0.07B 0.078 0.032 64 317 D 2 63 63 . 70 67 g 10 0.078 0.078 0.032 64 317 D 3 52 63 64 68
  • 10 0.078 0.078 0.032 64 319 A 1 41 34 26 33
  • 4 0.190 0.190 0.012 25 319 A 2 27 37 25 49 ** 4 0.190 0.190 0.012 25 . 319 A 3 23 19 7 3
  • 4 0.190 0.190 0.012 25 ' 319 B 1 27 20 30 20
  • 5 0.190 0.190 0.014 29 i 319 B 2 51 40 26 41
  • 5 0.190 0.190 0.014 29 ,. 319 B 3 NQD 3 20 31
  • 5 0.190 0.190 0.014 29 ... \ __ 319 c 1 49 2B 22 19
  • 9 0.190 0.190 0.013 27 319 c 2 21 64 23 29
  • 9 0.190 0.190 0.013 27 319 c 3 NGD 10 19 2B
  • 9 0.190 0.190 0.013 27 319 D 1 3B 45 24 2B
  • 11 0.190 0.190 0;012 25 319 D 2 22 56 26 33
  • 11 0.190 0.190 0.012 25 319 D 3 20 58 57 62
  • 11 0.190 0.190 0.012 25 320 A 1
  • B5 B6 B5
  • 2 O.OBO O.OBO 0.040 83 320 A 2 83 85 86 87
  • 2 0.080 0.080 0.040 83 320 ri 3 87 86 87 84
  • 2 0.080 O.OBO 0.040 83 320 B 1
  • 84 83 83
  • 5 0.080 0,080 0.040 83 320 B 2 79 Bl B3 B3
  • 5 o.oBo o.oBo 0.040 83 320 B 3 B2 B3 B6 81
  • 5 O.OBO 0.080 0.040 83 320 c 1
  • 79 77 7B
  • B O.OBO O.OBO 0.038 79 320 c 2 7B 74 75 77 ' B 0.080 0.080 0.038 79 320 c 3 74 78 75 70
  • B 0.080 0.080 0.038 79 320 D 1
  • 75 76 76
  • 10 0.080 0.080 0.036 75 320 D 2 77 77 77 77
  • 10 0.080 0.080 0.036 75 320 D 3 77 77 78 74
  • 10 0.080 0.080 0.036 75 369 A 1 70 65 65 70 70 10 0.078 0.078 0.040 BO 369 A 2 73 65 65 68
  • 10 0.078 0.078 0.040 BO 369 A 3 74 67 70 58
  • 10 0.078 0.078 0.040 80 369 B 1 49 39 39 53 48 10 0.109 0.109 0.030 60 369 B 2 51 54 55 51
  • 10 0.109 0.109 0.030 60 369 B 3 55 35 50 47
  • 10 0.109 o*.109 0.030 60 369 c 1 35 16 13 40 24 10 0.187 0.187 0.020 40 *.-369 c 2 31 38 30 35 10 0.187 0.187 0.020 40 *
  • 369 c 3 26 40 29 45
  • 10 0.187 0.187 0.020 40 369 D 1 11 7 7 26 20 10 0.187 0.187 0.015 30
    • \. I :;. Page 123 of 136 llASDATA.AXI ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH '%.DEPTH -----------------------------------------------------------------------------------------------

369 D 2 23 24 21 37

  • 10 0.187 0.187 0.015 30 369 D 3 20 20 29 15 i 10 0.187 0.187 0.015 30 369 E 1 ND ND ND ND ND 10 o.ooo o.ooo o.ooo 0 369 E 2 ND ND ND ND
  • 10 0.000 o.ooo 0.000 0 369 E 3 ND ND ND ND
  • 10 o.ooo 0.000 0.000 0 370 A 1 69 67 65 58 70 15 0.078 0.078 0.040 80 370 A 2 66 67 67 *
  • 15 0.078 0.078 0.040 80 370 A 3 68 73 64 73
  • 15 0.078 0.078 0.040 80 370 B 1 50 55 49 60 57 15 0.109 0.109 0.030 60 370 B 2 50 49 50
  • t 15 0.109 0.109 0.030 60 370 B 3 62 67 53 60
  • 15 0.109 0.109 0.030 60 370 c 1 30 12 36 8 20 15 0.187 0.187 0.020 40 370 c 2 30 36 45
  • t 15 0.187 0.187 0.020 40 370 c 3 11 37 32 32 t 15 0.187 0.187 0.020 40 370 D 1 7 11 2 NOD 25 15 0.187 0.187 0.015 30 370 D 2 44 34 39 *
  • 15 0.187 0.187 0.015 30 370 D 3 ND 21 12 38
  • 15 0.187 0.187 0.015 30
  • i,. *1.\ *. '.. J6ADATA.AXI ID DEF PRO ECTl ECT2 ECT3 ECT4 ECTS 382 D 382 D 382 D 382 E 382 E 382 E 383 D 383 D 383 D 383 E 383 E 383 E 384 D 384 D 384 D 384 E 384 E 384 E 385 D 385 0 385 D 385 E 385 E 385 E 386 D 386 D 386 E 386 E 387 D 387 D 387 D 387 E 387 E 387 E 388 D 388 D 388 D 388 E 388 E 388 E 389 D 389 D 389 D 389 E 389 E 389 E 390 D 390 D 390 D 390 E 390 E 390 E 391 D 2 1' .. 1 2 3 2 3 " J., .. 2 3 2 1' .. 2 3 2 3 2 1' .. 2 3 2 3 2 3 1 2 3 2 1' " 2 ;i 2 .. .J 2 3 1 2 3 1 26 NGD 28 9 ND 20 ND ND ND ND ND ND 39 47 36 28 45 39 47 47 36 ND 23 26 40 35 27 34 73 54 54 56 51 48 80 78 79 74 78 81 NGD 27 3 INC !NC me ND ND ND ND ND ND 38 c,, ,, J..i. J. NQD 23 16 21 NGD 25 ND ND 9 15 ND ND ND ND ND ND ND Nb ND ND ND ND 28 14 36 38 34 41 42 12 50 48 11 38 59 40 53 55 34 34 50 58 27 23 27 26 57 45 26 30 29 32 28 16 48 33 58 53 51 46 53 . 55 48 51 39 50 74 73 81 77 7-8 79 74 72 80 BO 82 ' 83 50 34 34 ND 56 51 INC INC INC 45 ND ND ND ND ND ND ND ND ND ND ND ND ND ND 37 43 12 NQD 25 NGD ND tmD ND ND ND 28 ND ND 14 45 43 47 46 41 44 51 34 33 27 28 35 25 32 34 41 55 47 54 46 29 80 80 78 81 84 77 23 NQD 40 INC INC ND ND ND ND . HD ND tm 35 * * * * * * * * * * * * * * * * * * * * * * * * * * * * * . * * * * * * * * * * * * * *
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0.588 0.588 80 BO 100 100 100 100 100 100 30 30 30 30 30 30 20 20 20 20 20 20 40 40 40 40 40 40 50 50 50 50 60 60 60 60 60 60 80 80 80 80 80 80 100 100 100 100 100 100 30 30 30 30 30 Page 131 of 136 lGADATA. AXI

  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI llAI llP AS llAS DENT AXIAL CIRC DEPTH ------------------------------------------------------------------------------------------------------------------------------------

.,. ND i 445 E *' ND ND ND 9.4 10.9 27.2 30 0.20 0.5BB 30 446 D 1 ND ND ND ND

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  • 9.7 10.2 51. 7 24.2 26.9 30 0.20 0.5BB 20. 446 D T ND ND ND ND
  • 9.7 10.2 51. 7 24.2 26.9 30 0.20 0.5BB 20 ,. 446 E 1 ND ND ND ND
  • B.1 10.2 21.3 17.2 17.2 30 0.20 0.5BB 20 446 E 2 ND ND ND ND
  • 8.1 10.2 21.3 17.2 17.2 30 0.20 0.588 20 446 E 3 ND ND ND ND
  • 8.1 10.2 21.3 17.2 17.2 30 0.20 0.588 20 447 D 1 55 45 31 41
  • 48.2 49.3 69.2 30 0.20 0.588 40 447 D " NGO 35 27 64
  • 48.2 49.3 69.2 30 0.20 0.588 40 L 447 D 3 16 NGD 26 6
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  • 34.0 34.9 71.5 49.0 49.7 30 0.20 0.588 50 448 D 2 43 ND 26 36
  • 34.0 34.9 71. 5 49.0 49.7 30 0.20 0.588 50 448 D .. NGD 37 16 18 l 34.0 34.9 71.5 49.0 49.7 30 0.20 0.588 50 .J 448 E 1 36 51 10 46
  • 34.1 38.0 63.1 47.3 49.7 30 0.20 0.588 50 448 E "' NGD ND 9 NGD l 34.1 38.0 63.1 47.3 49.7 30 0.20 0.588 50 i. 448 E 3 NGD 29 32 9 * . 34.1 38.0 63.1 47.3 49.7 30 0.20 0.588 50 4*0 "* D 1 55 43 33 47 l 56.9 58.7 73.3 30 0.20 0.588 60 449 D 2 47 53 53 59
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  • 93.3 94.1 100.0 30 0.20 0.58B BO 450 D 2 BB 74 81 B7 .. 93.3 94.1 100.0 30 0.20 0.5B8 80 450 D 3 80 83 83 B3
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  • 90.5 92.3 100.0 30 0.20 0.5B8 80 451 D 1 69 73 65 72
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  • 89.3 92.B 99.2 30 0.20 0.5BB 100 464 D 1 ND ND ND ND i 12.4 13.4 19.9 ---0.20 0.588 30 464 D " ND ND ND ND
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  • ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 AI KAI KP AS KAS DENT AXIAL CIRC DEPTH . -------------------------------------------------------------------------------------------------------------------------------------

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  • 54.9 55.8 66.3 ---0.20 0.588 100 Page i33 **of 136 ISADATA. AXI
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  • 18.6 19.1 25.5 ---0.20 0.588 BO 476 D 2 NGD NGD ND NGD
  • 18.6 19.1 25.5 ---0.20 0.588 80 476 D 3 44 73 27 58
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  • 18.6 19.1 25.5 ---0.20 0.588 80 476 E 1 19 ND ND 20
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  • 24.6 26.2 38.6 ---0.20 0.588 BO 476 E 3 NGD 7 2 NGD
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Page *-134***-or-T3.6 16ADATA.AXl
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  • 79.2 80.6 87.5 ---0.20 0.588 100 480 D 1 NGD 15 58 1 t ---0.20 1.763 40 480 D 2 25 46 30 27 t ---0.20 1.763 40 480 D 3 NGD 24 NQD 7 t --0.20 1.763 40 480 E 1 ND ND ND ND t ---0.20 2.355 40 480 E 2 ND ND NQD ND t ---0.20 2.355 40 480 E 3 ND 23 NGD 6 t ---0.20 2.355 40 481 D 1 31 31 37 35 t ---0.20 0.460 40 481 D 2 37 60 47 37 t ---0.20 0.460 40 481 D 3 34 44 33 21 t ---0.20 0.460 40 481 E 1 25. 44 NGD 25 t ---0.20 0.588 40 481 E 2 45 49 47 31 t ---0.20 0.588 40 481 E 3 27 42 43 19 t ---0.20 0.588 40 482 D 1 ND ND ND ND t ---0.20 0.070 40 482 D 2 ND ND ND ND t ---0.20 0.070 40 482 D 3 ND 19 ND ND t ---0.20 0.070 40 482 E 1 ND -ND ND ND * ----0.20 0.130 40 482 E 2 ND ND 21 12 t ---0.20 0.130 40 482 E 3 ND ND ND 18 t ---0.20 0.130 40 483 D 1 ND ND ND ND t ---0.20 0.588 40 483 D -2 7 NQD NGD ND t --0.20 0.588 40 _(_. 483 D 3 33 40 40. 34 t ---0.20 0.588 40 483 E 1 ND ND ND ND t --0.30 0.588 40 483 E 2 13 ND
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  • CIRDATA.AXI ID DEF PRO ECT1 ECT2 ECT3 ECT4 ECT5 DENT CIRC AXIAL DEPTH '%DEPTH -----------------------------------------------------------------------------------------------

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  • 0.375 .007 0.028 60 205 B 3 22 NQD 26 NQD
  • 0.375 .007 0.028 60 205 c 1 73 70 so 54
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-Page *136 or' i36

  • 1 CIRDATA.AXI
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