Forwards SG Plugged & F* Tube Summary,Prairie Island Unit 2 SGs Category C-3 Tube Insp Special Rept & F* Tube Rept,In Accordance W/Ts 4.12.E.1.Info Will Be Expanded Upon in ISI Rept for Unit 2

ML20085M974
Person / Time
Site:	Prairie Island
Issue date:	06/23/1995
From:	Richard Anderson NORTHERN STATES POWER CO.
To:	NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
NUDOCS 9506290429
Download: ML20085M974 (27)
v • d • e

Text

m y.

g Northem States Power Company Prairie Island Nuclear Generating Plant 1717 Wakonade Dr. East Welch, Mnnesota 55089 June 23, 1995 Prairie Island Technical Specification 4.12 U S Nuclear Regulatory Commission Attn:

Document Control Desk Washington, DC 20555 PRAIRIE ISIAND NUCLEAR GENERATING PLANT Docket Nos. 50-282 License Nos. DPR-42 50-306 DPR-60 Steam Generator Inspection Reports In accordance with Technical Specification 4.12.E.1, the following steam generator tube plugging information is provided for the information of the NRC Staff:

Following the recent inservice inspection of the Unit 2 steam generators, 54 tubes were plugged for the first time. The percentage of tubes plugged is 3.90% in steam generator 21.

The percentage of tubes plugged is 5.08% in steam generator 22.

The inspection results are summarized in Attachment 1.

In accordance with Technical Specification 4.12.E.2, this information will be expanded upon in the Inservice Inspection Report for Unit 2 which will be submitted within 90 days of the end of the current refueling outage. Also Table 4.3-13 of the Prairie Island Updated Safety Analysis Report will be updated in the next revision.

fhe results of the inspection of Steam Generator 21 and Steam Generator 22 were classified as Category C-3 in accordance with Technical Specification 4.12 because more than 1% of the inspected tubes in each Steam Generator were defective. The NRC Staff was informed of the Category C-3 classification by telephone on May 23, 1995.

In accordance with Technical specification 4.12.E.3, a 30 day special report on the Category C-3 steam generator inspection is provided as Attachment 2 to this letter. Acknowledging there is controversy in the steam generator industry concerning what construes a required (greater than or equal to 40% through wall degradation) versus

]

preventive repairs for Category C-3 tubes, NSP chooses to include axial indications reported by rotating coil probe technology as part of Category C-3 tubes.

260007 9506290429 950623 PDR ADOCK 05000282 I

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USNRC NORTHERN STATES POWER COMPANY June 23, 1995 Page 2 During the inspection and repair of tubes, the F-Star (F*) Alternate Repair Criteria was implemented under Prairie Island Modification 95L486. There are 449 tubes classified as F* tubes.

In accordance with Technical Specification i

4.12.E.4, the identification of F* tubes by Row and Column and the location and extent of degradation are included in Attachment 3 to this letter.

This letter contains no new NRC commitments.

If you have any questions concerning this information please call.

i

/ Y C\\.

Roger O Andersch Director Licensing and Management Issues c:

Regional Administrator - Region III, NRC Senior Resident Inspector, NRC NRR Project Manager, NRC J E Silberg Attachments:

1.

Steam Generator Plugged Tube and F-Star Tube Summary 2.

Prairie Island Unit 2 Steam Generators Category C-3 Tube Inspection Special Report 3.

F* Tube Report l

SGT95U2. Doc

1 ATTACHMENT 1 Steam Generator Plugged Tube and F* Tube Summary

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J.ttacimet 1 J ee 23, 1995 Page 2 21 Steam Generator Plurred Tube and F* Tube Summarv i

I Summary New Indications Plugged this Outags:

46 Total Plugged Tubes:

132 l

Total F* Tubes:

310 l

21 Steam Generator % Plugged:

3.90%

Inspection Scope l

All open tubes were examined full length, except for Rows 1 and 2 U bends with l

the bobbin coil.

All Rows 1 and 2 U-bends were examined with rotating probes.

All hot leg tubes were examined with rotating probe technology from the tube end to 3 inches above the top of the tubesheet.

New Indications Three hundred fifty six tubes were identf' I with the following types of degradation

1. Wastage:

Six tubes were plugged for thinning at the cold leg tube support plate.

2. Secondary Side IGA / SCC in Hot Leg Tubesheet Region Twenty six tubes contained single or multiple axial indications in the tubesheet crevice region indicative of secondary side ICA/ SCC occurring in the tubesheet region.

One of these tubes became an F* tube after Additional Roll Expansion (ARE). The other 25 tubes were plugged.

3. Primary Water Stress Corrosion Cracking (PWSCC) at Hot Leg Roll Transition Zone Three hundred two tubes contained single or multiple axial indications at the Roll Transition Zone. Two hundred eighty seven tubes became F*

tubes after successful Additional Roll Expansions.

Fifteen of these PWSCC tubes were plugged due to unsuccessful Additional Roll Expansion.

(One of the tubes was found to be leaking during a secondary side leak test).

4.

Cause Uncertain Twenty two tubes contained short axial indications near the hot leg tube end.

These tubes were all classified as F* tubes.

SGT95U2 DCC

=

June 23. 1993 Pese 3 21 Steam Generator Plurred Tube and F* Tube Summary (continued)

Averare Lenzth of Roll Transition Zone Indications The average length of the indications in the Roll Transition Zone was 0.13 inches.

Tube Plur Inspection A visual inspection was done of all installed tube plugs.

One B&W plug in the cold leg had abnormal boric acid build up and was replaced with an Alloy 690 plug.

One tube was found leaking on the hot leg side during a hydrostatic test at 750 psig. The source of the leak was multiple axial indications at the Roll Transition Zone.

Tube Plue Removal Twenty seven (27) Westinghouse Alloy 600 mechanical tube plugs were removed in response to Addendum 3 to Revision 3 of Westinghouse WCAP-12244 in accordance with the commitment to remove the remaining hot leg plugs in NSP letter to the NRC dated January 31, 1995.

Rotating Probe Inspections In order to best identify those tubes which have minor degradation in the tubesheet region and which could leak during the next fuel cycle plus anticipating the requirements of Generic Letter 95-03, a complete examination t

of the hot leg tubesheet region of all inservice tubes was conducted using a Rotating Coil Probe which contained three different coils.

These coils were a 0.115 inch pancake coil, a 0.080 inch pancake coil for discrimination of inside versus outside diameter signals and the Plus-Point coils.

This probe was also used to resolve distorted signals called by the bobbin probe inspection.

Circumferential Indications i

No circumferential indications were found.

The results of this inspection program of Steam Generator 21 were classified as Category C-3 by Technical Specification 4.12 because more than 1%

(including rotating probe indications) of the inspected tubes in Steam Generator 21 were defective. The NRC staff was informed of the Category C-3 classification by telephone on May 23, 1995.

i 4

V SGT95U2. DOC m

a 1.

Attsclument 1

-)

June 23, 1995 l

Pge 4 j

l 22 Steam Generator Plurred Tube and F* Tube Summarv l

l Summaty New Indications Plugged this Outage:

9 i

Total Plugged Tubes:

172 Total F* Tubes:

139 l Steam Generator t Plugged:

5.08%

l Inspection Scope l

All open tubes were examined full length, except for Rows 1 and 2 U-bends, j

with the bobbin coil.

j All Rows 1 and 2 U-bends were examined with rotating probes.

l All hot leg tubes were examined with rotating probe technology from the tube j

end to 3 inches above the top of the tdbesheet, j

)

New Indications one hundred forty eight tubes were identified with the following types of degradation

1. Wastage:

I Four tubes were plugged for thinning at the cold leg tube support plate.

)

2. Secondary Side IGA / SCC in Hot Leg Tubesheet Region

]

One tube contained a single axial indication in the lower half of the tubesheet crevice region indicative of secondary side ICA/ SCC occurring in the tubesheet region. This tube was plugged.

3. Primary Water Stress Corrosion Cracking IPWSCC) at Hot Leg Roll Transition Zone One hundred seventeen tubes contained single or multiple axial indications at the Roll Transition Zone. One hundred thirteen tubes became F* tubes after successful Additional Roll Expansions.

Four tubes were plugged due to unsuccessful Additional Roll Expansions.

4.

Unknown Degradation Mechanism Twenty six tubes contained short axial indicat ions near the hot leg tube end.

These tubes were all classified as F* tubes.

1 l

MW95U2. Doc

4 9

Attackunent 1 J ae 23, 1995 Page S 22 Steam Generator Plurred Tube and F* Tube Summary (continued)

Averare Length of Roll Transition Zone Indications The average length of the indications in the Roll Transition Zone was 0.11 inches.

Tube Plue Inspection The plug inspection in 22 Steam Generator was satisfactory.

Tube Plur Removal Seventy (77) Westinghouse Alloy 600 mechanical tube plugs were removed in response to Addendum 3 to Revision 3 of Westinghouse WCAP-12244 in accordance with the commitment to remove the remaining hot leg plugs in NSP letter to the NRC dated January 31, 1995.

Rotatine Probe Inspections In order to best identify those tubes which have minor degradation in the tubesheet region and which could leak during the next fuel cycle plus anticipating the requirements of Generic Letter 95-03, a complete examination of the hot leg tubesheet region of all inservice tubes was conducted using a Rotating Coil Probe which contained three different coils. These coils were a 0,115 inch pancake coil, a 0.080 inch pancake coil for discrimination of inside versus outside diameter signals and the Plus-Point coils.

This probe was also used to resolve distorted signals called by the bobbin probe inspection.

Circumferential Indications No circumferential indications were found.

The results of this inspection program of Steam Generator 22 were classified as Category C-3 by Technical Specification 4.12 because more than 1%

(including rotating probe indications) of the inspected tubes in Steam Generator 22 were defective. The NRC staff was informed of the Category C-3 classification by telephone on May 23, 1995.

9 SGT95U2. DOC

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I ATTACHMENT 2 Prairie Island Unit 2 Steam Generators Category C-3 Tube Inspection Special Report t

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Attactamnt. 2 Jme 23, 1995 Page 2 Prairie Island Unit 2 Steam Generators Category C-3 Tube Inspection Special Report Purpose This report fulfills the special reporting requirements of Prairie Island Technical Specification 4.12.E.3.

This report is required whenever the steam generator tube inservice inspection finds more than 10 % of the total tubes inspected are degraded tubes or more than 1% of the inspected tubes are defective.

Summary An inservice inspection consisting of 100% full length bobbin coil and 100% of tubesheet region mechanical rotating probe with plus-point coil was conducted on Unit 2 Steam Generators from May 21 through May 28, 1995. As a result of the eddy current inspection 10.8% (356 of 3302) of the inspected tubes in Steam Generator 21 contained defects requiring repair.

Forty-six of these tubes were plugged and the remaining 310 tubes were left in service using Additional Roll Expansion and the F-Star (F*) alternate repair criteria.

Repairs were completed on June 8, 1995.

As a result of the eddy current inspection 4.6% (148 of 3225) of the inspected tubes in Steam Generator 22 contained defects requiring repair.

Nine of these tubes were plugged and the remaining 139 tubes were left in service using Additional Roll Expansion and the (F*) alternate repair criteria. Repairs were completed on June 8, 1995.

Backcround Table 1 provides data on the Prairie Island Nuclear Generating Plant which is significant for the steam generators.

SGT95U2. DOC

B l

l June 23, 1995 l

Pase 3 Table 1: PRAIRIE ISLAND PLANT DATA Location: On Mississippi River near Red Wing Minnesota Nuclear Steam Supply System: Westinghouse 2-Loop 560 MWE Steam Generators: Westinghouse Model 51 Mill-Annealed Alloy 600 Tubing open Tubesheet Crevices - 2.75 inch hard roll at bottom of tube Circulating Water: Mississippi River / Cooling Towers 1

Secondary Systems Tubing: Stainless Steel / Carbon Steel Startup Dates :

Unit 1 - December 16, 1973 Unit 2 - December 21, 1974 Effective Full Power Days as of December 31, 1994:

Unit 1 - 6237 EFPD's Unit 2 - 6167 EFPD's 110T LEG TEMPERATURE: 590 degrees Fahrenheit SGT95U2. DOC

4 Attachm.nt 2 June 23. 1923 r..

4 The current status of each steam generator at Prairie Island is shown in the attached Table 2: " Prairie Island Steam Generator Tube Plug and Sleeve Status."

Cause of Tube Derradation The major cause of the degradation of tubas in the Unit 2 Steam Generators is primary water stress corrosion cracking, (PWSCC)

This degradation first became detectable at Prairie Island in October 1993 using bobbin coil supplemented with RPC inspection.

I Rotating coil (MRPC and plus-point) of the tubes plus experience gained from other utilities provided confirmation of the type of degradation occurring in the tubesheet region.

MRPC examinations of all tubes with non-quantifiable indications in the tubesheet region has been done routinely since February, 1987.

The MRPC results have confirmed the type of degradation as PWSCC.

Also, the first indications of secondary side intergrannular attack and stress corrosion cracking (IGA / SCC or ODSCC) in the tubesheet crevice region were identified in Unit 2 Steam Generators this outage.

Comparison of Number of Defective Tubes in Unit 2 Steam Generators. October 1993 to May 1995 i

The number of defective tubes identified in Unit 2 Steam Generators increased significantly because this was the first time that the tubesheet regions in Unit

)

2 were completely examined using rotating probe technology. In order to best identify those tubes which have minor degradation in the tubesheet region and which could leak during the next fuel cycle plus anticipating the requirements of Generic Letter 95-03, a complete examination of the hot leg tubesheet region of all inservice tubes was condtieted using a Rotating Coil Probe which contained three different coils. These three coils were a 0.115 inch pancake coil, a 0.080 inch pancake coil for discrimination of inside versus outside diameter signals and the Plus-Point coils.

There are no sleeves installed in Unit 2 steam generators i

Remedial Actions Northern States Power has participated in utility funded research on steam generator related issues beginning with the Steam Generator Owners Group II in 1982 and continuing to the present EPRI funded Steam Generator Management Proj ec t.

Remedial actions to reduce and/or prevent tube degradation due to primary water stress corrosion cracking and secondary side IGA / SCC have been used by the industry with only limited success. Prairie Island has evaluated, and in most cases, implemented the following remedial actions:

Reduced Operating Temperature: Prairie Island has been a low temperature plant, having operated with T ot at 590 "F since startup. This has slowed, h

but not eliminated, growth of PWSCC and IGA / SCC in the Prairie Island steam generators. Additional temperature reduction has not been warranted.

SGT95U2. Doc

-- J

e Atteclamnt 2 Je e 23, 1995 Page 5 Chemistry Control: Prairie Island has used state of the art analytical equipment since startup and has followed both the original equipment manufacturer's water chemistry guidelines as well as the EPRI secondary water chemistry guidelines. (3)

The amounts of material found from hideout return tests during shutdowns have been small. Steam generators are sludge lanced every other outzge on a cycling basis with less than 80 pounds of sludge removed during each outage. The PWSCC degradation is relatively independent of chemistry and occurs in regions of high residual stress.

High Hydrazine and Molar Ratio Control: These two remedial actions have been used with success in Japan. For a US plant, Prairie Island has maintained relatively high hydrazine levels for a long time.

In May, 1992, hydrazine control was raised to 125 +- 25 ppb.

Molar ratio control to reduce secondary side corrosion: Molar ratio control has been attempted by adjustments to steam generator blowdown resin ratios during the last operating cycle. Molar ratio control is still being evaluated. The object of molar ratio control is to maintain the cation to anion ratio (sodium to chloride) at less than one so th:4t free sodium hydroxide can not form in the crevice regions.

t conduct Crevice Flushing Operations with Boric Acid: Prairie Island started crevice flushing in 1986 using two days of time.

Since then we have added boric acid to the crevice flushing procedure. The time has been reduced to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> since only a small amount of contaminants are being removed.

On-line addition of Boric Acid: Following the report of favorable laboratory results in 1986, Prairie Island began on-line addition of boric acid in unit 1 in March 1987. The effectiveness of this remedial action remains controversial within the industry (EPRI ICA/ SCC workshops in May 1991 and December 1992). Improvements in the eddy current technology can make this comparisons difficult, however, since a different set of tubes would have been identified for everyone if RPC inspections had been available and/or used in the past.

Prairie Island will continue to use boric acid until such time as an inhibitor of equal or greater effectiveness is justified for on-line use.

One of the recommended boric acid practices, low power soaks, h'as' not been implemented at Prairie Island.

Use of other chemical inhibitors: At the present time, NSP supports EPRI research for other chemical inhibitors. Our current evaluations centers around the use of titanium compounds to inhibit the growth of IGA / SCC. A titanium chelate, TYZOR LA Titanate has been added since January 1994 to Unit 1 steam generators.

Preventive sleeving is one method of reducing the probability of tube leak outages. The down side of preventive sleeving is the inability to follow the degradation mechanism and the reduction in the ability to examine tube support plate intersection above the sleeves. NSP has made the strategic decision to sleeve on an as-needed basis, to insure that we are able to SGT95U2. DOC

. ~...

~.. ~

.~. -. -.

?

• l Attectument 2 Jun. 23, 1993 rg. s best follow the tube support plate problems and to reduce our overall cost of steam generator repair and maintenance.

l

~

l The F-Star Alternate Repair Criteria allows tube to remain in service with 1

indications below the F* distance. Additional Roll Expansion adds a new F*

i distance te the steam generator tubing and allows additional tubes to remain in service which have degradation in the lower -1/3 of the tubesheet crevice region.

1 Detailed Inspection Plans: Although not a recommendation for remedial actions, but rather a current inspection guideline, 100% of the full length of all tubes in service are routinely examined at Prairie Island. This was 1

started in 1982. In addition, all tubes with indications which can not be quantified, such as UDI's, DSI's, MBM's (in the tubesheet) are examined with the rotating coil probe due to its higher sensitivity. Repair-decisions, in those cases, are based on the RPC results.

t References (1) EPRI NP-4745-LD, Examination of Tubes R4C19HL, R6C18HL, and R16C33HL from l

Steam Generator 12 of the Prairie Island Nuclear Station Unit 1.

(2) EPRI NP-6201, PWR Steam Generator Examination Guidelines, Revision 2.

.i (3) EPRI TR102134, PWR Water Chemistry Guidelines, Rev. 3 i

l 2

4 SGT95U2. DOC

Table 2: Prairie Island Steam Generator Tube PLUG & SLEEVE Status DEFECT TYPE SG11 SG12 SG21 SG22 Cold Ieg TSP Thinning 31 17 67 126 l

Antivibration Bar Wear 27 3

9 30 Tubesheet Sec Side IGA / SCC Only 5

469 25 2

Roll Transition PWSCC Only 2

48 23 8

RTZ PWSCC and Sec Side ICA/ SCC ~

0 11 0

0 Hot Leg Tube Support Plate 7 0

1 0

0 U-Bend PWSCC 1

1 0

0 Loose Parts 7

0 2

2 Free Span 5

1 2

1 Other 5

5 4

3 Total Tubes Defective 83 556 132 172 Total Tubes Plugged 83 146 132 172 Additional Roll Expansion Tubes 0

0 288 113 F* Tubes 0

0 310 139 Tubesheet Sleeves (ICA/ SCC)*

0

• 436 0

0 t Equivalent Plugged 2.45%

4.89%

3.90%

5.08%

• Includes 26 preventive sleeves As of June 10, 1995

_-_______.___-_._.._-._____.___s__.

l 4

1 ATTACHMENT 3 F* Tube Report l

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i June 23, 1995

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Pne 2 j

F* Tube Report i

[

21 STEAM GENERATOR F*0 Tubes, June 22, 1995 LEG ROW COLUMN INDICATION IDCATION REMARK H

1 9

SAI TEH

+

0.1TO+

0.2 F*0 f

H 7

9 SAI TEH

+

0.1T0+

0.3 F*0 H

1 10 MAI TEH

+

0.0TO+

0.3 F*0 H

1 11 MAI TEH

+

0.1TO+

0.2.

F*0

?

H 1

12 MAI TEH

+

0.0TO+

0.1 F*0 H

2 12 SAI TEH

+

0.3T0+

0.3 F*0

[

11 1

13 MAI TEH

+

0.1TO+

0.2 F*0

~

H 22 13 MAI TEH

+

0.1TO+

0.3 F*0 H

1 14 SAI TEH

+

0.1TO+

0.2 F*0 H

1 18 MAI

'TEH

+

0.2T0+

0.3 F*0 H

6 20 SAI TEH

+

0.2TO+

0.2 F*0 H

33 20 MAI TEH

+

0.1TO+

0.2 F*0 H

7 22 SAI TEH

+

0.2TO+

0.3 F*0 H

1 23 SAI TEH

+

0.2TO+

0.4 F*0 H

1 24 MAI TEH

+

0.2T0+

0.3 F*0 H

1 35 SAI TEH

+

0.2TO+

0.3 F*0 11 1

48 SAI TEH

+

0.1TO+

0.3 F*0-H 1

62 SAI TEH

+

0.1TO+

0.2 F*0 H

1 64 MAI TEH

+

0.0T0+

0.2 F*0 11 1

66 MAI TEH

+

0.0T0+

0.2 F*0 H

1 76 SAI TEH

+

0.1 Tot 0.2 F*0 H

1 77 SAI TEH

+

0.1T0+

0.2 F*0 4

Grand Count 22 1

4 F*0, F* TUBE WITHOUT ADDITIONAL ROLL EXPANSION

MAI, MULTIPLE AXIAL INDICATION

SAI, SINGLE AXIAL INDICATION

TEH, TUBE END 110T

TSH, TUBESHEET HOT SGT95U2. DOC

June 23, 1995 Page 3 l

21 Steam Generator F*1 Tubes, June 22, 1995 i

TUBE LEG ROW COLUMN INDICATION IDCATION REMARK l

11 4

11 SAI TDI

+

2.8TO+

2.9 F*1 l

H 5

11 SAI Tai

+

2.6TO+

2.7 F*1 H

14 12 MAI TEli

+

2.8T0+

3.0 F*1 H

2 13 MAI TDI

+

3.1T0+

3.5 F*1 H

4 13 SAI TDi

+

3.3TO+

3.3 F*1 H

11 14 MAI TEH

+

3.2T0+

3.4 F*1 H

1 15 MAI TEH

+

2.6T0+

2.7 F*1 11 13 15 MAI TEH

+

2.9T0+

3.0 F*1 H

16 15 MAI TEH

+

3.0TO+

3.1 F*1 H

18 15 MAI TEH

+

3.3T0+

3.3 F*1 H

29 16 MAI TEH

+

3.0TO+

3.1 F*1 H

4 16 MAI TEH

+

2.9TO+

3.0 F*1 H

1 17 MAI TEH

+

2.7T0+

2.7 F*1 H

14 17 SAI TEH

+

3.0TO+

3.1 F*1 H

3 18 SAI TEH

+

2.8T0+

2.8 F*1 H

4 18 MAI TEH

+

2.6T0+

2.8 F*1 H

5 18 MAI TEH

+

3.0TO+

3.1 F*1 H

1 19 MAI TEH

+

3.0T0+

3.1 F*1 H

19 19 MAI TEH

+

2.9TO+

3.0 F*1 11 1

20 MAI TEH

+

2.9TO+

3.0 F*1 H

13 20 MAI TDI

+

2.8T0+

2.9 F*1 11 17 20 MAI TEH

+

2.8TO+

2.9 F*1 H

27 20 MAI TEH

+

2.7T0+

2.9 F*1 H

29 20 MAI

- TEH

+

2.4TO+

2.6 F*1 H

5 20 MAI TD1

+

2.9TO+

3.0 F*1 H

7 20 MAI TEH

+

2.8TO+

2.9 F*1 11 16 21 MAI TEH

+

2.8T0+

3.0 F*1 H

17 21 MAI TEH

+

2.7TO+

2.8 F*1 H

18 21 MAI TDI

+

2.8T0+

3.0 F*1 H

24 21 MAI TEH

+

2.9TO+

3.0 F*1 H

7 21 MAI TEH

+

2.8T0+

2.9 F*1 H

9 21 MAI TEH

+

2.9TO+

3.0 F*1 H

1 22 MAI TEH

+

2.8T0+

2.9 F*1 H

14 22 MAI TEH

+

2.8TO+

2.9 F*1 H

16 22 MAI TEH

+

2.6T0+

2.7 F*1 H

17 22 MAI TDI

+

2.7T0+

2.8 F*1 H

2 22 MAI TEH

+

2.8T0+

2.9 F*1 11 3

22 MAI TEH

+

2.7TO+

2.8 F*1 11 39 22 SAI TEH

+

2.7TO+

2.8 F*1 H

4 22 MAI TEH

+

2.8T0+

2.9 F*1 H

8 22 MAI TEH

+

2.8T0+

2.9 F*1 H

14 23 MAI TEH

+

2.8T0+

2.9 F*1 H

16 23 MAI TEH

+

2.8TO+

2.9 F*1 H

19 23 MAI TEH

+

2.8TO+

2.9 F*1 H

3 23 MAI TDI

+

2.8T0+

3.0 F*1 H

6 23 SAI TEH

+

2.8TO+

2.9 F*1 H

12 24 MAI TEH

+

2.4TO+

2.5 F*1 so:9su2.coc

e Attichment 3 Juns 23, 1993 Fage 4 I -

H 5

24 MAI TEH

+

2.5TO+

2.6 F*1 H

6 24 MAI TEH

+

2.8TO+

2.9 F*1 H

9 24 SAI TEH

+

2.7TO+

2.7 F*1 H

16 25 SAI TEH

+

2.8TO+

2.9 F*1 l

H 17 26 SAI TEH

+

2.6TOF 2.6 F*1 11 17 27 MAI TEH

+

2.6TO+

2.7 F*1 H

28 27 SAI TEH

+

2.8TO+

2.8 F*1 H

30 27 MAI TEH

+

2.8TO+

3.0 F*1 H

32 27 SAI TEH

+

2.5TO+

2.6 F*1 l

H 7

27 MAI TEH

+

2.7TO+

3.2 F*1 l

H 8

27 SAI TEH

+

2.6TO+

2.7 F*1 H

1 28 MAI TEH

+

2.9TO+

3.1 F*1 11 11 28 SAI TEH

+

1.9TO+

2.1 F*1 H

14 28 SAI TEH

+

2.8TO+

2.9 F*1 H

15 28 SAI TEH

+

3.0TO+

3.1 F*1 H

16 28 MAI TEH

+

2.8TO+

2.9 F*1 11 19 28 MAI TEH

+

2.9TO+

3.2 F*1 H

21 28 MAI TEH

+

3.0TO+

3.1 F*1 H

23 28 MAI TEH

+

2.4TO+

2.6 F*1 H

3 28 MAI TEH

+

2.9TO+

3.1 F*1

)

H 38 28 MAI TEH

+

2.5TO+

2.6 F*1 I

f H

5 28 MAI TEH

+

3.0TO+

3.1 F*1 i

H 9

28 SAI TEH

+

2.9TO+

3.3 F*1 H

16 29 SAI TEH

+

2.8TO+

2.9 F*1 H

18 29 SAI TEH

+

2.8TO+

2.9 F*1 H

4 29 MAI TEH

+

2.6TO+

2.7 F*1 l

11 7

29 MAI TEH

+

2.8TO+

2.8 F*1 l

H 14 30 MAI TEH

+

2.5TO+

2.6 F*1 i

H 4

30 MAI TEH

+

2.6TO+

2.7 F*1 H

6 30 MAI TEH

+

2.5TO+

2.7 F*1 H

8 30 SAI TEH

+

2.7TO+

2.8 F*1 H

9 30 MAI TEH

+

2.8TO+

3.0 F*1 H

23 31 SAI TEH

+

2.8TO+

2.9 F*1 11 25 31 MAI TEH

+

2.7TO+

2.8 F*1 H

3 31 SAI TEH

+

2.7TO+

2.7 F*1 H

4 31 MAI TEH

+

2.6TO+

2.9 F*1 H

6 31 SAI TEH

+

2.5TO+

2.6 F*1 H

1 32 MAI TEH

+

2.5TO+

2.7 F*1 H

23 32 SAI TEH

+

2.4TO+

2.9 F*1 H

30 32 SAI TEH

+

2.7TO+

2.7 F*1 11 32 32 SAI TEH

+

2.7TO+

2.8 F*1 H

6 32 MAI TEH

+

2.6TO+

2.8 F*1 11 21 33 MAI TEH

+

2.6TO+

2.7 F*1 H

27 33 SAI TEH

+

2.7TO+

2.7 F*1 H

3 33 MAI TEH

+

2.6TO+

2.7 F*1 H

7 33 MAI TEH

+

2.6TO+

2.7 F*1 H

8 33 MAI TEH

+

2.7TO+

2.8 F*1 H

10 34 MAI TEli

+

2.6TO+

2.7 F*1 H

23 34 MAI TEH

+

2.9T0+

2.9 F*1 H

3 34 MAI TEH

+

2.6TO+

2.7 F*1 H

34 34 MAI TEH

+

2.7TO+

2.8 F*1 H

8 34 MAI TEH

+

2.6TO+

2.8 F*1 H

13 35 MAI TEH

+

2.8TO+

2.9 F*1 SGT95U2. DOC

C F

Attectument. 3 l

June 23, 1993 l

Page 5 j

H 7

35 MAI TEH

+

2.6T0+

2.8

.F*1 H

8-35 MAI TEH

+

2.5TO&

2.5 F*1 H

20 36 MAI TEH

+

2.7T0+

2.8 F*1 H

22 36 SAI TEH

+

2.8T0+

2.8 F*1 i

I H

5 36 MA1 TEH

+

2.8T0+

2.9 F*1 H

6 36 MAI TEH

+

2.7T0+

2.8 F*1 H

8 36 MAI TEH

+

2.7T0+

2.8 F*1 H

13 37 MAI TEH

+

2.7T0+

2.8 F*1 H

21 37 SAI TEH

+

2.5T0+

2.6 F*1 H

6 37 MAI TEH

+

2 8T0+

2.9 F*1 H

8 37 MAI TEH

+

2.8TO+

2.8 F*1 H

13 38 SAI TEH

+

2.9T0+

3.0 F*1 H

3 38 MAI TEH

+

2.9T0+

3.0 F*1 i

H 4

38 MAI TEH

+

2.7TO+

2.8 F*1 H

7 38 MAI TEH

+

2.8T0+

2.9 F*1 H

9 38 MAI TEH

+

2.7T0+

2.8 F*1 l

H 12 39 SAI TEH

+

2.8TO+

2.9 F*1 i

H 20 39 SAI TEH

+

2.6T0+

2.6 F*1 H

21 39 SAI TEH

+

2.7TO+

2.8 F*1 H

25 39 MAI TEH

+

2.7TO+

2.7 F*1 H

4 39 MAI

- TEH

+

2.8T0+

2.9 F*1 H

10 40 MAI TEH

+

2.9T0+

2.9 F*1 H

10 41 MAI TEH

+

2.6T0+

2.8 F*1 H

12 41 MAI TEH

+

2.8T0+

2.9 F*1 H

4 41 MAI TEH

+

2.7TO+

2.9 F*1 3

5 41 SAI TEH

+

-2.6T0+

2.7 F*1' H

7 41 SAI TEH 2.7T0+

2.7 F*1

+

H 9

41 MAI TEH

+

2.5T0+

2.9 F*1 H

15 42 MAI TEH

+

2.7T0+

2.8 F*1 H

2 42 SAI TEH

+

3.lTO+

3.1 F*1 H

7 42 SAI TEH

+

2.8TO+

2.9 F*1 H

23 43 MAI TEH

+

2.5T0+

2.7 F*1 H

24 43 MAI TEH

+

2.5T0+

2.9 F*1 H

3 43 MAI TEH

+

2.7T0+

2.9 F*1 H

5 43 SAI TEH

+

2.6T0+

2.6 F*1 i

H 7

43 SAI TEH

+

2.7T0+

2.8 F*1 H

8 43 SAI TEH

+

2.8T0+

2.9 F*1 H

9 43 MAI TEH

+

2.7T0+

2.8 F*1 H

18 44 MAI TEH

+

2.7T0+

2.8 F*1 H

24 44 MAI TEH

+

2.7T0+

2.8 F*1 H

12 45 MAI TEH

+

2.8T0+

3.2 F*1 l

H 13 45 MAI TEH

+

2.5T0+

2.7 F*1 H

3 45 hAI TEH

+

2.5T0+

2.7 F*1 l

H 30 45 SAI TEH

+

2.9T0+

2.9 F*1 H

9 45 SAI TEH

+

2.6T0+

2.7 F*1 j

H 14 46 MAI TEH

+

2.6T0+

2.8 F*1 H

3 46 MAI TEH

+

2.8T0+

30 F*1 H

4 46 MAI TEH

+

2.3T0+

2.4 F*1 H

8 46 MAI TEH

+

2.7TO+

2.8 F*1 H

12 47 MAI TEH

+

2.6T0+

2.7 F*1 H

13 47 MAI TEH

+

2.4T0+

2.6 F*1 H

3 47 MAI TEH

+

2.4TO+

2.5 F*1 H

4 47 MAI TEH

+

2.5T0+

2.7 F*1 sat 95uz.coc I

l i

i j

+

June 23, 1993 pg. s q

H 7

47 MAI.

TEH

+

2.4TO+

3.0 F*1

{

8 47 SAI TEH

+

2.6T0+

2.7 F*1 H

9 47 MAI TEH

+

2.6TO+

2.8 F*1 H

4 48 MAI TEH

+

2.5TO+

2.6 F*1

'.5T0+

2.6 F*1 H

6 48 SAI TEH

+

e H

13 49 MAI TEH

+

2.7T0+

2.7 F*1 H

14 49 MAI TEH

+

2.8T0+

2.9 F*1 H

10 50 MAI TEH

+

2.6T0+

2.7 F*1 H

12 50 MAI TEH

+

2.7T0+

2.8 F*1 H

14 50 SAI TEH

+

2.7T0+

2.8 F*1 H

2 50 MAI TDI

+

2.7T0+

3.3 F*1 H

4 50 MAI TEH

+

3.0T0+

3.2 F*1 l

[

H 5

50 MAI TEH

+

2.7T0+

2.8 F*1

}

11 7

50 MAI TEH

+

2.5T0+

2.6 F*1 i

H 1

51 SAI TEH

+

2.7T0+

2.8 F*1 f

H 4

51 MAI TEH

+

2.5TO+

2.5 F*1 H

5 51 MAI TEH

+

2.5TO+

2.6 F*1 H

8 51 MAI TEH

+

2.4T0+

2.6 F*1 H

1 52 SAI TEH

+

2.5T0+

2.6 F*1 H

14 52 MAI TEH

+

2.6T0+

3.1 F*1 H

2 52 MAI TEH

+

2.6T0+

2.9 F*1 H

3 52 MAI TEH

+

2.4TO+

2.5 F*1 H

4 52 SAI TEH

+

2.7T0+

2.8 F*1 H

10 53 SAI TEH

+

2.3T0+

2.4 F*1 H

4 53 SAI TEH

+

2.8T0+

2.9 F*1 H

7 53 SAI TEH

+

2.6T0+

2.7 F*1 11 1

54 SAI TEH

+

2.4TO+

2.5 F*1 H

11 54 MAI TEH

+

2.6TO+

2.8 F*1 H

19 54 f,AI TEH

+

2.7TO+

2.7 F*1 11 7

54 MAI TDI

+

2.4TO+

2.5 F*1 H

10 55 MAI TEH

+

2.4TO+

2.5 F*1 H

11 55 MAI TEH

+

2.6T0+

2.7 F*1 H

14 55 MAI TEH

+

2.5T0+

3.0 F*1 H

4 55 MAI TEH

+

2.ST0+

3.0 F*1 H

10 56 MAI TEH

+

2.7T0+

2.8 F*1 H

11 56 MAI TEH

+

2.9T0+

3.1 F*1 H

6 56 MAI TEH

+

2.6T0+

2.8 F*1 H

7 56 MAI TEH

+

2.5TO+

2.7 F*1 11 1

57 SAI TEH

+

2.7T0+

2.8 F*1 11 11 57 MAI TEH

+

2.5T0+

2.6 F*1 H

13 57 MAI TDI

+

2.7TO+

2.8 F*1 H

23 57 MAI TEH

+

2.7T0+

2.8 F*1 H

6 57 MAI TEH

+

2.6T0+

2.8 F*1 H

8 57 MAI TEH

+

2.7T0+

2.9 F*1 11 14 58 MAI TEH

+

2 3T0+

2.4 F*1 H

16 58 MAI TEH

+

2.4TO+

2.7 F*1 H

21 58 MAI TEH

+

2.3TO+

2.5 F*1 H

5 58 MAI TDI

+

2.4T0+

2.6 F*1 H

9 58 SAI TEH

+

2.6T0+

2.7 F*1 H

10 59 MAI TDI

+

2.7TO+

2.8 F*1 H

11 59 MAI TEH

+

2.5TO+

2.6 F*1 i

i H

13 59 MAI TEH

+

2.6TO+

2.8 F*1 I

H 14 59 MAI TDI

+

2. 2T(R 2.2 F*1 SGT95U2. DOC

Attaciment 3 Juna 23, 1995 l

Pge 7

)

H 8

55 SAI TEH

+

2.8T0+

2.9 F*1 H-11 60 MAI TEH

+

2.6T0+

2.8 F*1 H

14 60 MAI TEH

+

2.5T0+

'2.8 F*1 H

16 60 MAI TEH

+

2.8T0+

2.9 F*1 H

2 60 MAI TEH

+

2.8T0+

2.9 F*1 H

3 60 MAI TEH

+

2.6T0+

2.7 F*1 H

4 60 MAI TEH

+

2.6T0+

2.8 F*1 H

5 60 MAI TEH

+

2.5T0+

2.7 F*1 H

7 60 SAI TEH

+

2.5T0+

2.7 F*1 H

10 61 MAI TEH

+

2.6T0+

2.7 F*1 l

H 11 61 MAI TEH

+

3.0T0+

3.2 F*1 H

17 61 MAI TEH

+

2.8T0+

2.9 F*1 H

2 61 MAI TEH

+

2.8T0+

3.0 F*1 H

3 61 MAI TEH

+

2.5T0+

2.5 F*1 H

5 61 MAI TEH

+

2.4T0+

2.5 F*1 H

7 61 MAI TEH

+

2.6T0+

2.7 F*1 H

9 61 MAI TEH

+

2.4T0+

2.5 F*1 H

10 62 MAI TEH

+

2.9T0+

3.0 F*1 H

12 62 SAI TEH

+

2.9T0+

3.0 F*1 H

14 62 SAI TEH

+

2.7T0+

2.9 F*1 l

H 2

62 MAI TEH

+

2.7T0+

2.8 F*1 l

H 25 62 SAI TEH

+

2.8T0+

2.9 F*1 H

4 62 MAI TEH

+

2.5T0+

2.5 F*1 H

5 62 MAI TEH

+

2.6T0+

2.7 F*1 H

8 62 mal TEH

+

2.4T0+

2.5 F*1 H

1 63 SAI TEH

+

2.8T0+

2.9 F*1 H

3 63 MAI TEH

+

2.6T0+

2.8 F*1 H

5 63 MAI TEH

+

2.6T0+

2.7 F*1 H

8 63 MAI TEH

+

2.2T0+

2.3 F*1 H

12 64 MAI TEH

+

2.7T0+

2.8 F*1 H

14 64 MAI TEH

+

2.5T0+

2.8 F*1 H

17 64 SAI TEH

+

2.8T0+

2.9 F*1 H

3 64 SAI TEH

+

2.7T0+

2.8 F*1 H

4 64 SAI TEH

+

2.9T0+

3.0 F*1 H

5 64 MAI TEH

+

2.4T0+

2.8 F*1 H

6 64 SAI TEH

+

2.7T0+

2.8 F*1 H

7 64 MAI TEH

+

2.7T0+

2.8 F*1 H

8 64 SAI TEH

+

2.6T0+

2.7 F*1 H

11 65 MAI TEH

+

2.3T0+

2.4 F*1 11 12 65 MAI TEH

+

2.9T0+

2.9 F*1 H

16 65 SAI TEH

+

3.0T0+

3.1 F*1 H

5 65 MAI TEH

+

2.7T0+

2.8 F*1 11 8

65 SAI TEH

+

2.7T0+

2.8 F*1 11 10 66 MAI TEH

+

2.5T0+

2.7 F*1 H

16 66 SAI TEH

+

1.8T0+

1.9 F*1 11 5

66 SAI TEH

+

2.6T0+

2.7 F*1 H

24 67 MAI TEH

+

2.9T0+

3.0 F*1 H

7 67 MAI TEH

+

2.5T0+

2.8 F*1 11 11 68 MAI TEH

+

2.6T0+

2.9 F*1 H

34 68 MAI TEH

+

2.8T0+

2.9 F*1 11 4

68 MAI TEH

+

2.9T0+

3.1 F*1 11 5

68 MAI TEH

+

2.8T0+

2.9 F*1 H

7 68 MAI TEH

+

2.6T0+

2.8 F*1 BGTriSU2. DOC J

l l-June 23, 1993

. p.e. s H

11 69 SAI TEH

+

2.7TO+

2.8 F*1 H

5 70 MAI TEH

+

2.4T0+'

2.4 F*1 H

10 71 MAI TEH

+

2.4T0+

2.6 F*1 H

11 71 MAI TEH

+

2.6T0+

2.7 F*1 H

3 71 MAI TEH

+

2.6T0+

2.6 F*1 H

11 72 MAI TEH

+

2.4TO+

2.5 F*1 H

8 72 MAI TEH

+

2.5TO+

2.6 F*1 H

11 73 MAI TEH

+

2.5TO+

2.6 F*1 H

3 73 MAI TEH

+

2.3T0+

2.4 F*1 i

H 5

73 MAI TEH

+

2.4T0+

2.5 F*1 H

11 74 MAI TEH

+

2.4TO+

2.6 F*l.

H 3

74 SAI TEH

+

2.5T0+

2.6 F*1

.l H

5 74 MAI TEH

+

2.5T0+

2.5 F*1 i

H 9

74 SAI TEH

+

2.6T0+

2.7 F*1 l

H 5

75 MAI TEH

+

2.4T0+

2.5 F*1 H

7 77 SAI TEH

+

2.6T0+

2.7 F*1 H

11 78 SAI TEH

+

2.4T0+

2.5 F*1

(.

H 7

78 MAI TEH

+

2.4TO+

2.5 F*1 H

7 79 MAI TEH

+

2.7T0+

2.7 F*1 H

28 80 SAI TEH

+

2.5T0+

2.6 F*1 H

18 86 SAI TEH

+

2.7TO+

2.7 F*1 Grand 280 l

Count F*l, F* TUBE WITH ONE ADDITIONAL ROLL EXPANSION

MAI, MULTIPLE AXIAL INDICATION

SAI, SINGLE AXIAL INDICATION

TEH, TUBE END HOT

TSH, TUBESHEET HOT t

SGT95U2. DOC

June 23. 1995 ras. s 21 Steam ' Generator F*2 Tubes, June 22, 1995 LEG ROW COLUMN INDICATION IhCATION REMARK H

13 29 SAI TEH

+

2.7T0+

2.7 F*2 H

16 32 SAI TEH

+

2.6TO+

2.7 F*2-H 14 40 MAI ITH 0.5TO-1.8 F*2 H

10 44 SAI ITH 1.0TO-2.0

.F*2 H

20

'46 SAI ITH

+

0.1T0-1.1 F*2 H

6 47 SAI ITH 1.2TO-2.0 F*2 H

10 48 SAI ITH 1.4TO-2.0 F*2 H

8 49 SAI ITH

+

0.8TO-2.1 F*2 l

l Grand 8

l Count j

l F*2, F* TUBE WITH TWO ADDITIONAL ROLL EXPANSIONS I

MAI, MULTIPLE AXIAL INDICATION

SAI, SINGLE AXIAL INDICATION

TEH, TUBE END HOT

TSH, TUBESHEET HOT ITH TOP IST ADDITIONAL ROLL HOT SGT95U2. DOC

. - - - ~ - - -. - - - - - - - - - - - - -. - - - - - -. - - -. -. -. - - - - - - - - - - - - -

Attsclument 3.

June 23. 1995 Pese 10 22 Steam Generator F*0 Tubes, June 22, 1995 LEG ROW COLUMN INDICATION IDCATION REMARK H

1 37 SAI TEH-

+

0.2T0+

0.2 F*0 H

1 50 SAI TEH

+

0.1T0+

0.3 F*0 H

7 50 SAI TEH

+

0.2TO+

0.3 F*0 H

1 51 MAI TEH

+

0.1T0+

' O.3 F*0 H

1 52 MAI TEH

+

0.1T0+

0.3 F*0 I'

H 1

53 SAI

. TEH

+

0.1TO+

0.1.

F*0 H

7 61 SAI TEH

+

0.1TO+ -

0.2 F*O H

1 62 MAI TEH

+

0.1TO+

0.2 F*0 H

7 64 SAI TEH

+

0.1TO+

0.2 F*0 H

7 65 SAI TEH

+

0.1T0+

0.2 F*0 H

1 69 MAI TEH

+

0.1T0+

0.4 F*0 H

1 70 MAI TEH

+

0.0T0+

0.2 F*0 H

20 71 MAI TEH

+

0.2T0+

0.3 F*0 H

1 72 MAI TEH

+

0.2T0+

0.3 F*0 H

1 73 MAI TEH

+

0.1T0+

0.2 F*0 H

1 74 MAI TEH

+

0.1T0+

0.3 F*O H

1 75 SAI TEH

+

0.1T0+

0.2 F*0 H

1 76 MAI TEH

+

0.1T0+

0.3 F*0 H

1 77 MAI TEH

+

0.1T0+

0.3 F*0 H

1 78 SAI TEH

+

0.1T0+

0.3 F*0 H

1 79 MAI TEH

+

0.1T0+

0.2 F*0 H

1 80 MAI TEH

+

0.1T0+

0.2 F*0 H

1 81 MAI TEH

+

0.1TO+

0.2 F*0 H

1 82 MAI TEH

+

0.1T0+

0.3 F*0 H

1 83 SAI TEH

+

0.1T0+

0.2 F*0 H

1 84 SAI TEH

+

0.1T0+

0.2 F*0

• ~

Grand 26 Count F*0, F* TUBE WITHOUT ADDITIONAL ROLL EXPANSION

MAI, MULTIPLE AXIAL INDICATION

SAI, SINGLE AXIAL INDICATION

TEH, TUBE END HOT

TSH, TUBESHEET HOT t

SGT95U2, DOC 1

.. )

p.

Attschment 3 June 23, 1995 Page 11 22 Steam Generator F*1 Tubes, June 22, 1995 p

l LEG ROW COLUMN INDICATION LOCATION REMARK H

24 15 mal TEH

+.

2.5T0+

2.6 F*1 H

1 17 MAI TEH

+

2.4TO+

2.5 F*1 H

1 18 MAI TEH

+

2.4T0+

2.5 F*1 H

1 20 MAI TEH

+

2.lT0+

2.3 F*1 l

H 1

21 MAI TEH

+

2.3T0+

2.4 F*1 H

18 22 SAI TEM

+

2.7T0+

2.9 F*1 H

22 23 SAI TEH

+

2.5T0+

2.6 F*1 H

28 24 SAI TEH

+

2.8T0+

2.9 F*1 H

23 25 MAI TEH

+

2.6T0+

2.7 F*1 H

27 30 SAI TEH

+

2.6T0+

2.7 F*1 H

3 31 MAI TEH

+

2.3T0+

2.5 F*1 H

15 31 MAI TEH

+

2.4T0+

2.5 F*1 H

20 32 MAI TEH.

+

3.0TO+

3.1 F*1 H

31 32 SAI TEH

+

2.6T0+

2.6 F*1 1

H 28 34 SAI TEH

+

2.4T0+

2.5 F*1 l

11 13 35 MAI TEH

+

2.7T0+

2.8 F*1 H

14 35 SAI TEH

+

3.4T0+

3.5 F*1 H

28 35 MAI TEH

+

3.2T0+

3.4 F*1 H

23 36 MAI TEH

+

2.8TO+

3.0 F*1 H

14 38 SAI TEH

+

2.3T0+

2.4 F*1 H

16 38 MAI TEH

+

2.3T0+

2.7 F*1 H

19 38 MAI TEH

+

2.5T0+

2.7 F*1 H

20 38 MAI TEH

+

2.5T0+

2.6 F*1 H

14 41 SAI TEH

+

2.3TO+

2.5 F*1 H

27 41 SAI TEH

+

2.3T0+

2.4 F*1 H

12 42 MAI TEH

+

2.5T0+

2.6 F*1 H

20 42 MAI TEH

+

2.6T0+

2.7 F*1 H

33 42 SAI TEH

+

2.3T0+

2.3 F*1 H

33 43 SAI TEH

+

2.5T0+

2.6 F*1 H

37 43 MAI TEH

+

2.4T0+

2.4 F*1 H

13 44

.MAI TEH

+

2.4T0+

2.6 F*1 H

17 44 SAI TEH

+

2.6T0+

2.6 F*1 H

13 45 MAI TEH

+

2.5T0+

2.8 F*1 H

17 45 MAI TEH

+

2.7T0+

2.8 F*1 H

13 46 SAI TEH

+

2.5T0+

2.8 F*1 H

26 46 SAI TEH

+

2.4T0+

2.4 F*1 H

2 48 MAI TEH

+

2.6T0+

2.7 F*1 H

23 48 MAI TEH

+

2.4TO+

2.5 F*1 H

28 48 MAI TT41

+

2.6T0+

2.7 F*1 H

1 49 SAI TEH

+

2.6T0+

2.6 F*1 11 3

49 SAI TEH

+

2.5T0+

2.6 F*1 H

12 49 MAI TEH

+

2.6T0+

2.7 F*1 H

14 49 MAI TEH

+

2.7T0+

2.8 F*1 I

H 18 49 MAI TEH

+

2.6TO+

2.7 F*1 H

23 49 MAI TEH

+

2.3T0+

2.4 F*1 H

28 49 SAI TEH

+

2.4T0+

2.5 F*1 H

32 49 MAI TEH

+

2.4TO+

2.5 F*1 SGT95U2. DOC

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Atttchment 3 June 23. 1se3-Page 12 H

41 49 SAI TEH

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2.8 F*1 H

9 50 MAI TEH

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24 50 MAI TEH

+

2.3TO+

2.4 F*l.

l H

32 50 MAI TEH

+

2.3TO+

2.4 F*1 l

H 33 50 SAI TEH

+

2.5TO+

2.6 F*1 l

H 32 51 SAI TEH

+

2.4TO+

2.5 F*1 l

H 24 52 MAI TEH

+

2.3TO+

2.4 F*1 H

28 52 SAI TEH

+

2.3TO+

2.4 F*1 H

33 52 SAI TEH

+

2.5TO+

2.5 F*1 H

12 53 SAI TEH

+

2.5TO+

2.6 F*1 i

H 13 53 MAI TEH

+

2.7TO+

3.2 F*1 H

1 54 SAI TEH

+

2.5TO+

2.6 F*1 H

23 54 SAI TEH

+

2.3TO+

2.5 F*1 H

10 55 SAI TEH

+

3.0TO+

3.1 F*1 H

13 55 MAI TEH

+

2.2TO+

2.6 F*1 H

22 55 SAI TEH

+

2.4TO+

2.5 F*1 H

33 55 SAI TEH

+

2.5TO+

2.5 F*1 H

4 56 SAI TEH

+

2.6TO+

2.8 F*1 H

7 57 SAI TEH

+

2.5TO+

2.7 F*1 H

21 57 MAI TEH

+

2.5TO+

2.6 F*1 i

H 13 58 MAI TEH

+

2.2TO+

2.4 F*1 H

23 58 SAI TEH

+

2.3TO+

2.4 F*1 H

37 58 SAI TEH

+

2.4TO+

2.4 F*1

(

H 28 59 MAI TEH

+

2.4TO+

2.6 F*1 H

30 59 SAI TEH

+

2.4TO+

2.4 F*1 i

H 32 60 SAI TEH

+

2.4TO+

2.4 F*1 H

22 61 MAI TEH

+

2.4TO+

2.4 F*1 H

23 61 SAI TEH

+

2.4TO+

2.5 F*1 H

19 62 MAI TEH

+

2.6TO+

2.7 F*1 i

H 37 62 SAI TEH

+

2.4TO+

2.5 F*1 f

H 37 63 SAI TEH

+

2.3TO+

2.4 F*1 i

I H

9 64 SAI TEH

+

2.8TO+

2.8 F*1 H

34 64 SAI TEH

+

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2.5 F*1 H

10 65 MAI TEH

+

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2.7 F*1 i

H 12 65 MAI TEH

+

2.6TO+

2.6 F*1 H

15 65 MAI TEH

+

2.8TO+

2.9 F*1 i

H 24 65 MAI TEH

+

2.5TO+

2.6 F*1 l

H 27 65 SAI TEH

+

2.4TO+

2.5 F*1 H

11 66 MAI TEH

+

2.7TO+

2.8 F*1 H

24 66 SAI TEH

+

2.4TO+

2.5 F*1 j

H 9

67 MAI TEH

+

2.7TO+

2.8 F*1 H

16 67 SAI TEH

+

2.4TO+

2.5 F*1 H

24 67 MAI TEH

+

2.5TO+

2.6 F*1 H

27 67 MAI TEH

+

2.3TO+

2.4 F*1 i

H 24 68 MAI TEH

+

2.lTO+

2.1 F*1 H

27 68 MAI TEH

+

2.lTO+

2.2 F*1 i

H 37 68 MAI TEH

+

2.4TO+

2.5 F*1 H

24 69 MAI

- TEH

+

2.lTO+

2.2 F*1 H

25 69 MAI TEH

+

2.0TO+

2.0 F*1 H

27 70 SAI TEH

+

2.6TO+

2.6 F*1 H

12 72 MAI TEH

+

3.2TO+

3.4 F*1 H

12 73 MAI TEH

+

2.7TO+

2.8 F*1 H

15 73 MAI TEH

+

3.0TO+

3.1 F*1 SGT95U2. DOC

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13 75 SAI TEH

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11 76 SAI TEH

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2.8 F*1 l.

H' 13' 76 SAI TEH.

+

2.5T0+

2.6 F*1 H

22 76' SAI TEH

+

2.6T0+

2.7 F*1 H

13 77 SAI TEH

+

2.7T0+

2.8 F*1 H

22 77 SAI TEH

+

2.6T0+

2.7 F*1 H

26 78 MAI TEH

+

2.7T0+

2.9-F*1

-H 12 79 MAI TEH

+

2.7T0+

2.8 F*1 H

13 79 MAI TEH

+

3.0T0+

3.0 F*1 H

14 79 MAI TEH

+

2.8T0+

2.9 F*1 H

9 80 MAI TEH

+

2.8T0+

2.9 F*1-H 13 80 MAI TEH

+

2.9T0+

3.0 F*1 H

22 81 SAI TEH

+

2.6TO+

2.7-F*1 Grand 113 Count F* 1..

F* TUBE WITH ONE ADDITIONAL ROLL EXPANSION

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l SGT95U2. DOC

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