ML20196G363
| ML20196G363 | |
| Person / Time | |
|---|---|
| Site: | Farley  |
| Issue date: | 02/15/1988 |
| From: | WESTINGHOUSE ELECTRIC COMPANY, DIV OF CBS CORP. |
| To: | |
| Shared Package | |
| ML20196G360 | List: |
| References | |
| NUDOCS 8803080268 | |
| Download: ML20196G363 (471) | |
Text
{{#Wiki_filter:_- . 1 I INTERVAL 1 PERIOD 2 OUTAGE 3 ( . INSERVICE INSPECTION REPORT OF THE JOSEPH H. FARLEY NUCLEAR PLANT UNIT 2 COLUMBIA, ALABAM/. REPORT DATE: February 15, 1988 l OWNER: ALABAMA POWER COMPANY , 600 North 18th Street , P. O. Box 2641 Birmingham, Alabama 35291 l O ~ COMMERCIAL SERVICE DATE: July 30, 1981 PERFORMED BY: i i i WESTINGHOUSE ELECTRIC CORPORATION Nuclear Services Integration Division P. O. Box 3377 ; Pittsburgh, Pennsylvania 15230-3377 ! 1 i O
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8903000268 080226 i f PDR ADOCK 05000364 G PDR ! 4 4 y..
t t I INOEX ! s I TA8 ISI Certificate . Owner's Data Report . . . . . . . . . . . . . A Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . B l l Exami nation Program . . . . . . . . . . . . . . . . . . . . . . C l l Examination Results . . . . . . . . . . . . . . . . . . . . . . D j l Additional Examinations Performed . ... . . . . . . . . . . . . E I Indications . . . . . . . . . . . . . . . . . . . . . . . . . . F l Certifications and Qualifications . . . . . . . . . . . . . . . G Examination Procedures. . . . . . . . . . . . . . . . . . . . . H Reactor Vessel Inspection Tool Data and Results . . . . . . . . I 4 1 i n J
+
J l d . I
Paga 1 of 4 FORM NIS 1 OWNERS' DATA REPORT FOR INSERVICE INSPECTIONS As required by the Provisions of the ASME Code Rules
- 1. Owner Alabama Power Comoanv. 600 North 18th Street. Birminch3- u 35291 (Narne and Address o(Owner)
- 2. Plant J. M. Farley Nuclear Plant, U.S. IIwv 95 South. Columbia. AL 36319 (Name and Address of Plant) .
- 3. Plant Unit 2 4. Owner Certificate of Authorization (il required) N/A
- 5. Commercial Service Date 7/30/81 6, sationai Board Number for unit See 1isted N.B. for
- 7. Components laspected each CCrnDonent Manufacturer Component or Manufacturer or Installer State or National Appurtenance or lastaller Serial No. Province No. Board No.
Reactor Vessel Head Combustion Enzineerine CE69205 N/A 21358 Pressurizer Westinghouse Tampa APPT-1561 N/A W10793 5 team 1551, 1552, 6e-la , 125, Generators Westinghouse Tampa 1553 N/A 126 Reactor Cool- APR-RCPCPA ant Pumos B.C Westinehouse EMD 02 & 03 N/A N/A Class 1 & 2 Piping Daniel Construction N/A , N/A N/A l 1 I I I Notei Supplements; sheets in form of Rsts, sketenes, or drawings may be used pronded (1) si:e is 5% in. x 11 in..
\ (2)information in items 1 through 6 on this .iata report ts included on each sneet and (3) each sheet .s numbered and the nurnber of sheets is recorced at the top of this form.
This fcrm tE000791 trav :* ectainee w m Orcer Oed. A5VE 345 E. 47tm St., New 'er t. N. '. *0017
Pcgo 2 of 4 FORM N151
.s
.fp h 8. Emannaadon Dates 10/7/87 ,, 11/30/87 9. Inspecnen laterval from 7/30/81 , 7/29/91
- 10. Abstract of r. t-M Include a list of exaMdons and a statement concerning status of week required for surrent Interval. See Tabs C and E.
- 11. Abstreet of conditions Noted See Tab B.
- 12. Abstract of Cometive Mesmres Recomnweded and Taken See Tab B. i We cerufy that the statements made in this report are comet and the examinations and comenve men-nares taken conform to the rules of the ASME Code, Section XI.
Dase Februarv 19. 1988 Signed Alabama Power Co. By J Owner Q
. t Cernficate of Authorindon No. (if applicable) NA Expiration Date NA CERTIFICATE OF INSERVICE INSPECTION ,
I, the undersigned, holding a valid etwrunission issued by the National Board of Boiler and Pressure Vessel Inspectors and/or the State or Province of Texas and employed by ** of _ Long Grove, It have inspected the components desenbed in this Owners' Data Report during the period
- 10/7/87 to 11/30/87 and state that to the best of rny knowledge and belief, the Owner hss performed examinations and taken correctm measum described in this owners' Data Report in accordance with the requirements of the ASME Code, Section XI.
By signing this certificate neither the Inspector nor his employer makes wy warranty, expressed or implied, concerning the examinations and comcove nuessures denenbed la this Owners' Data Report. Furthennere, neither the Inspector nor his employer shall be liable in any manner for any personal injury or property damage or a loss of any kind arising from or connected with eds inspection. Dase Februarv 19. 19 88 ** = Lumbermens Mutual Casualty Co.
- v h Commissions N.B. 9241. TX. 1250 Ingerfor's Signature National Board, State, Province and No.
I I I 4
,, - . - . . . n.. . - , . . - . - - - - - - . . - . - . , - - .
P:ge 3 of 4 ONNER'S E m REPORT o FOR INSERVICE INSPECTION tWIE: February 15, 1988 OWER NME Am ADDRESS: Alabama Power Company 600 North 18th Street P. O. Box 2641 Birmingham, Alabama 35291 NME AIO ADDRESS OF NUCLEAR GENERATING PIANf: Joseph M. Farley Nuclear Plant U.S. Highway 95 South Columbia, Alabama 36319 NAME ASSIGNED 'IO NUCLEAR POWER UNIT: Joseph M. Farley Nuclear Plant, Unit 2 OWER CERTIFICATE OF AlfIHORI7ATICE: N/A C0fMERCIAL SERVICE DA2E: July 30, 1981 NATIONAL BOARD NIRBER: See listed NB's for each conponent. NAME OF COMPCNENTS OR PARTS OF COMPONENTS INVOLVED: Representativi samples of the following components and systems were examined
.x using nondestructive examination techniques.
Class 1 Component or System System Designation APR Sketch Reactor Vessel Bil 1-1300 Closure Head Conoseal Bolting Steam Generators A, B, C B21 1-3100 Pressurizer B31 1-2110 Reactor Coolant Pumps B and C B41 1-5110 Residual Heat Removal System E11 1-4109, (Low Head Safety Injection) 1-4210, including valve bolting for 1-4309 V021C, V051A, and V0518 Chemical and Volume Control System E21 1-4110, (Charging /High Head Safety Injection) 1-4211, including check valve V032A and valve 1-4310 bolting on V032B and V032C O DEC ISI-001/9
Pige 4 Cf 4 A Class 2 Component or System System Designation APR Sketch Residual Heat Removal System E11 2-2310, ! (Low Head Safety Injection) 2-2311, ! 2-2313, ! 2-2314, 2-2316, 2-2317, 2-2417 Chemical and Volume Control System E21 2-2411, (Charging /High Head Safety Injection) 2-2413, 2-2414 Main Steam System N11 2-2111, ' 2-2120 HNTIC 'IESTING: See Tabs B and E i NhME Atc ADDetESS OF tmHUFACTURER OR INS'mLLER OF 00MFQENTS:
- 1. Reactor Vessel and Closure Head Combustion Engineering, Inc.
Chattanooga, Tennessee
;g 2. Pressurizer and Steam Generators l , Westinghouse Electric Corporacion l Tanpa Divi 3 ion l
- Tampa, riorida i
- 3. Reactor Coolant Pungs 1 Westinghouse Electric Corporation Electro Mechanical Division l I i Cheswick, Pennsylvania . l 5 i
- 4. Reactor Coolant Pi in Southwest Fabrica ing & Welding Co., Inc.
Houston, Texas
- 5. Class 1 and 2 Piping i
Daniel Construction Co. Greenville, South Carolina
- INSERVICE INSPECTION IWIES
- October 7,1987 to November 30, 1987 NAME OF AIIIHORIZED NUCLEhR INSERVICE INSPECIOR: Charles G. Ward I
NhME Ate MAILING ADDRESS OF INSPECIOR'S EMP! DYER: ) i Kenper Group l
- Lumbermens Mutual Casualty Conpany ;
LCE/SISS l Long Grove, Illinois 60049 i ABS'11 tact: See Tabs B and C 1 DEC ISI-001/9 4
m ALABAMA POWER COMPANY J. M. FARLEY NUCLEAR PLANT UNIT N0. 2 INTERVAL 1/PERl00 2/0UTAGE 3 EXAMINATION S(M4ARY INTRODUCTION An Inservice Examination of Class I and II components and piping systems was conducted at Farley Nuclear Plant Unit 2 daring October and November, 1987. The primary areas of inspection included the main steam, residual heat removal system and chemical volume and control system in the Auxillary Building and the pressurizer, steam generators, and reactor coolant pumps in containment. The program utilized visual, surface, and volumetric nondestructive testing methods in accordance with both the requirements of: (a) ASME Section XI 1974 Edition up to and including the Summer, 1975 Addenda, and (b) Technical Specification 4.0.5. Certification documents for equipment, material, and personnel were reviewed and approved by plant personnel. RESULTS Examinations resulted in recordable indication areas being noted on the basis of procedure recording criteria, which generally are more conservative than specified in ASME Section XI Acceptance Standards. All of the indications j were evaluated and dispositioned by Indication Evaluation Reports (IER), shown ) in Tab F of this report. ; O I ( ID: 5313r/20188:50-1 I
SUMMARY
OF INDICATIONS ; 1 CLASS 1 j i (a) VOLUMETRIC EXAMINATIONS l l
- 1. No indications were found, f l
(b) SURFACE EXAMINATIONS j i I ) 1 1. No indications were found. { l (c) VISUAL EXAMINATIONS l I i
- 1. No indications were found. !
l
- CLASS 11 l t !
J (a) VOLUMETRIC EXAMINATIONS 4
- 1. No indications were found. j (b) SURFACE EKAMINATIONS :
l l
- 1. None were performed. !
)
i j (c) VISUAL EXAMINATIONS 1
- l. No indications were found.
+ AUG4ENTED EXAMINATIONS Volumetric Indications 4 1 1 10:5313r/20188:50-2 4
- ._, _ . - - - - - , . _ _ . . ~ , . - . . , ,_._,--__,,.__,,,,,_-,,..,.,_~,.____.,,,,-_,,..-e.._y_..--.,_
, - .m,_.r-,n,,,..
- 1. Sketch APR2-2110 teld 4-16. This weld is an 8"~ branch weld to a vent line. This weld is not in the augmented program since it is
. downstream of the main steam header. It was examined, however,
( - because an indication in the weld was found during preservice. There was no discernible change in the indication. Since this weld 4-16 and 4-17 are not part of the augmented program they will be deleted from the inspection program. SURFACE EXAMINATIONS
- 1. No indications were found.
ADDIT 10NAL EXAMINAT10N$ Results from additional examinations which were performed since the previous outage and during this outage are shown in Tab E of the Report and are summarized as follows:
- 1. Clas', iystem t.eakage Test In accordance with ASME Section XI 1974 Edition IHB-5210(a), leak testing of the Class 1 Reactor Coolant System Pressure Boundary was performed prior to startup following the fifth refueling outage. The testing was completed by plant personnel on 11/30/87. Results were satisfactory. A copy of the completed test procedure is retained by the Farley Plant Document Control.
- 2. Class 1 and 2 Hydrostatic Testing Hydrostatic tests of Class 1 and 2 systems were performed during the third outage of the second forty-month period in accordance with the ;
requirements of ASHE Code Section XI, Articles IWA-5000, INB-5000 and IWC-5000. l The table below is a listing of the test procedures used and discrepancies ' found during testing. Completed test procedures and work requests are retained in the Farley Nuclear Plant Document Control for the life of the l plant. ID:5313r/20188:50-3 i o-- _ _
FARLEY NUCLEAR PLANT UNIT 2 ( HYDROSTATIC TESTS FIFTH REFUELING OUTAGE DESCRIPTION OF LEAKS PROCEDURE
- 1. FNP-2-STP-160.22 None WA 71370 .
RHR Train A vo RCS Hot Leg Suction Line Packing Leaks on valves Q2P23V001A,
- 2. FNP-2-ETP-4255 V0018,V002A.V0028.
MA 54379, 70005 thru 70038, 70041, 70042. Diaphragm leaks on valves Q2E23V004B, V037B, V005A, V037A, V004A,Q2G21V005, Class 2 Containment N2G21V225 V275, V107 V015,V020, V013B ,
. Penetrations Seat Leakage on valve Q2Pl7HV3045 Leakage from Temperature elements Q2E23TE2830P-N, TE2807A-N, TE28078, TE3534.
- 3. Steam Generator Feedwater Nozzle-to-Reducer Weld Examinations Examinations and Results The feedwater nozzle-to-reducer welds on Steam Generators A, B, and C were examined during the fifth refueling outage by 100% ultrasonic testing on October 5 and 6, 1987, using NA-70045 procedure FNP-0-ETP-4119, Official Test Copy 871002-1. All examinations were acceptable. A copy of the completed test procedure is retained by the FMP Document Control. j
- 4. Visual Examinations of Conoseal Boltina Assemblies The new reactor vessel conoseal bolting assemblies added per Production Change Notice B87-2-4340 were visually examined prior to installation.
All the results were acceptable and are included in Tab E of this report. i I All the pertinent certifications are included in Tab G of this report.
- 5. Steam Generator Primary Manway Cover Fastener Examinations 1
The new steam generator primary manway cover fasteners added per Production Cnange Notice 687-2-4228 were examined by the supplier using visual. UT, and MT techniques. All the results were satisfactory. All the pertinent information is included in Tab E of this report. ; i lo ID:5313r/20188:50-4 l
- 6. Miscellaneous Exaninations Performed by Plant Personnel The following examinations were performed by plant personnel prior to and during the fifth refueling outage,
- a. Primary Manway Cover Bolts on "B" Steam Generator - PT on 01/09/87
- b. Seal Housing Bolts on "C" Reactor Coolant Pump - PT on 01/13/87
- c. Valve studs on Q2E21V032B - PT on 01/14/87
- d. Valve studs on 02E11V051A - PT on 01/17/87
- e. Valve studs on Q2F21V032C - PT on 11/09/87 ,
- f. Valve studs on Q2E21V032B - PT on 11/09/87
- g. Body-to-bonnet studs on Q2E11V021C - PT on 11/11/87
- h. Body-to-bonnet studs on Q2E11V0518 - PT on 11/11/87 The examination sheets are included in Tab E of this report. A copy of the procedures and applicable certifications is retained by the FNP Document Control.
EXAMINATIONS Examinations were conducted to review as much of the examination zone asWhen was practical, within geometric, metallurgical, and physical limitations. the required ultrasonic examination volume or area could not be examined 1007., the examination was considered to be partla) (PAR) and so noted. Generally, PAR's are noted as fitting-to-fitting assemblies (as explained under LIMITATIONS) and in areas where integrally welded supports, lugs, or hangers, etc., preclude access to some part of the examination area. Ultrasonic examinations that produced greater than reference level O sensitivity, from reflectors that are characteristic of metallurgical structure or the ID and/or 00 surfaces of an item were acknowledged only. Examples of areas that generally produce such geometric indications are as o follows: , (1) ID weld prep or root and/or the crown overlay or toe. , (2) The ID radius of the tubesheet on the channel b6 4 to tubesheet weld of steam generators, when examining from tubesheet side. (3) The metallurgical structure of the cast materials. (4) Responses from the thread areas of bolting. LIMITATIONS Some of the arrangements and details of the piping system and components were designed and fabricated before the access and examinations requirements of Section XI of the 1971 Code could be applied; consequently, some examinations are limited or not practical due to geometric configuration or accessibility. Generally, these limitations exist at all fitting-to-fitting joints such as elbow to tee, eibow to valve, reducer to valve, etc., where geometry, and sometimes surface condition, preclude ultrasonic coupilng or access for the required scan length. ID:5313r/20188:50-5
I In most cases, exaninations in these areas were accomplished as a best effo t attempt to cover as much of the code-required area or-volume (generally, the weld and base metal for 1 "T" en each side) as is possible, however, the r3 extent of examination coverage in the base metal of the fitting or component cannot be specifically quantified as being 100%. Arcas where complete examination of 100% of the required volume of area could not be achieved are indicated by a PAR (partial) notation on the examiners' data sheet, and the limiting cause is noted. The principle basis for PAR's is to identify the inability to examine 100% of the required base metal volume for 1 "T" distance beyond the edge of the weld on a fitting or component. Examples are (1) ultrasonic examination of a pipe to elbow assembly, where scanning on the intrados of the eloow causes decoupling of the sound beam and (2) a pipe to flange or valve assembly, where scanning the entire volume on the fitting or component side is limited by configuration. The resulting coverage is such that examination of the weld, heat affected zone and base metal for 1 "T" on the pipe side can be achieved by scanning from the pipe side of the weld. An, indeterminate coverage of the base metal
- on the fitting or component side may be achieved during this pipe side scan, depending on the calibrated sweep length, attenuation, joint configuration, etc. However, the volume on the fitting or component side additionally cannot be scanned completely for transverse indications as-required by Code. In either case,100% of this 1 "T" volume cannot be assured, thus a PAR is required as a disclaimer to having satisfied code requirements, albeit the intent is satisfied to the extent practical.
Specific limitations and restrictions for all examinations are as indicated on v the raw data sheets - Section 0 of the Outage Report.
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O ID:5313r/20188:50-6
i O AIABAMA POWER COMPANY J.M.FARLEY NUCLEAR PLANT UNIT NO.2 INSERVICE INSPECTION INTERVAL 1, PERIOD 2,0UTAGE 3 1987 This document details the proposed planned scope of examination by Westinghouse for Refueling Outage 1987, including items and areas selected for examination. Examination and documentation procedures and isometric sketches containing identification of all areas to be examined., certifications and qualifications of examiners, materials and equipment will
- be available on site for review prio r to the start of examinations.
Efforts should be made to provide access to all planed examinations;however, due to circumstances such as radiation, environment,etc., some variations may occur. In the event of such occurrences, substitute areas may be selected. This program and the procedures incorporated herein, require approval by labama Power Company J.M.Farley Nuclear Plant and the Authorized Inspector. Prepared by: WESTINGHOUSE ILECTRIC CORPORATION W Approval: c NA8dMNI ' Utility Representative ff Approval / hx, 2 .
Title:
M4n ct.2 - Sr e nknwTM b PLM)WU6. NM CLEU . Authorized Inspector j Concurrence: e M / M / /vn r : Agency: y_ ,f m,
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O l -
i [ __ ___ _ _ FNP-0-AP-57 FIGURE 2 FARLEY NUCLEAR PLANT INSERVICE INSPECTION PROGRAM CHANGE UNIT NO. CHANGE NO. b PAGE OF 10 YEAR INTERVAL 40 MONTH PERIOD OUTAGE b DESCRIPTION OF CHANGE:
/. bl$lk lhlHt 5A h Indi<de fat eraim,<ntics cf fle Peaclev t/ esse,/
Head (cncseal 80/6 9
- 2. Arthd 1tob b iltnts 'landt0 to shw Hathiese tudh /s ndexht.
- s. Mad r 20A h inelade aankk of wt(d (2LS.
- t. Added wdds I-47,1-47ts,1-49; a,/14gts tg ;(,,,, 25.
- 5. Addd wt/h 24%d 2 -97LS fi L W.
(m} G - )did tug fo 1%s X ad El 15sAcia Mcd Hrse Ndh to uf <nd REASON FOR CHANGE:
- 1. Utia Oncscal Aarliarc ti4(ed }tr Trodadion O(utgi Hofu 387.2-ty 2.a<d &:
Fafd Vtrihid tward accorkgIyaf u(kwilds i
. fCNb3a nfixist
- r. tw-a-a-cx;)/racoigs
- 3. hcil12LS was ad hclaledk he origittalseye , f Wes 'bM<d ait/ Uomidd N/ai< hit /d /C !
Qif. ^rev 3a r. iwH-nos)(SEdcF AM 2-Ml7 was .cpiw)u'd. fan,t 5. pi x NL(O IJtt'l illefilVid Wlb 5 Ed"lGSIV^ W#1 fE*CMd lirtts;frawi S -fo $l (CViStd (iGGorbyhy , f(cthIftin&{anthf. TCtd 33 $ FMP-d-M-OS5/ REviEvED sr: cf. . .t A . : , L,f] 10h llT 7 p WESTINGHOUSE IS'I C00RDINATOR DATE
~
j APPROVED BY:[4I[ /U ~21" 77 SxSmSPERr-ANcgENT e mmuNe om c(~] (j SUPERINTE Rev. 3
1 ,. . . .. . . . . . . rur-o-AP-57
\
ls - l r.v).
. rIGoar 2 :
.. j rARIZI NUCLEAR PLANT .
l
, ,INSEI7 ICE INSPEC"TION PROGRAM CEANGE -
l UNIT No. 2 CEANGE No. 001 FAGE i 0F i 1 1 I.0 TEAR INTEI7 ail 40 NONTE PERICD OUTAGE 3N i I
' l DESCRIPTION OF CHANGE. J
() On C(ass I itsm *4 : 3c.Ithd weld. # 3 a d addsd I R.4.
@ Adled ihm*5 in CAssI (visual r.vaminamn of vaM bodyon Qaeaivo.ua) l A15 subse.gtu.yd ihs were. Yt-numkred % ripec.t t(s. adificn ihm #s. .
Q( c .
.l
~
)
REASON FOR CHANGE: , i
@ Weld.*3 was Wamimcl duri ihz. 'f6 Refuelinj Ouhje. .' Adhg.
Inner Raatus.4 (zR-4-) will meck %c. rajuirtd tYamina}ien percen ajes. (% TcN SA C FNP-2-M-01!i.)
@ E5: valve. was Assevnbied h tie. Maintenarce. eu.p and k rquired b be. <xamind tchendisassembled (Ref. Etik R$ uest 2.5.Ilc7 RZvIEwEn 'sT: Wl MA A /u /d
/ 0/.7 /e ;
WESTINut1GU5E ISI COORDINAIOR. DAu.
. APPROVED BT:M ^ /O-? - yp 31s m % PERECRE SCE & PLANNING DAu.
SUP M .3NDENT f -- --
Fj .
?
AIA3AMA POWER COMPMN O JOSEPH M. FARLEY NUCLEAR POWER PLA!C UNIT 10. 2
\} I!CERVAL 1, PERIOD 2, CUIAGE 3 1987 All items listed are to be examined as defined in the applicable sections of the final Safety Analysis Report which is based on the 1974 Edition Section XI of the ASME Boiler and Pressure Vessel Code up to and including Sumer 1975 Addenda and to the extent practical with the access provided and the limitations of couponent geometry.
CIASS I AREA AND EXTDC SKETCH PRCXmAM CAL IWB2600 EXAMINATION FTO.c.udRE, REFERENCE ITDi BLOCK RETERDJCE OF EXAMINATICN Vol. Surf. Vis. B5.2 Seal House Bolts 15 70 8 1-5110 1 B5.3 RCP-B 2 B5.3 Ligaments, seal 8 1-5110 House RCP-B B3.2 Inner Radius S/G 8 '1-3100 W; 3 A&B (HL & CL):1-IR1, 1-IR2, 2-IR1, 2-IR2 4 APR 7 B2.2 IR-1, IR-2, IR-3, 47 1-2110 IR-4 PC-001 B6.7 Valve Body Item 15 8 1-6200 5 (Q2E21V032A) Bl.11 Reactor Vessel 8 1-1300 EA Closure Head-Conoseal , Bolting (12 Bolts to PC-002 l l be used for Penetra- l tiens 51, 53, 55, & 57) l 1 V DEC MISC-04/42 PZE 1 Or 2 l l
I)' CLASS II
$b IWC2600 AREA AND EXTINr SKETCH PROGRAM ~ CAL iTD1 BLOCK REFERENCE OF EXAMINATIQ1 EXAMIl&TIOJ PROCEDURE REFERDJCT Vol. Surf. Vis.
PIPING 6 ALA-27 C2.1 Welds 1-44, 1-45 205 2-2111 7 AIA-2", C2.1 Welds 2-44, 2-45 205 2-2120 8 ALA-11 C2.1 Weld 15 205 2-2417 9 ALA-25 C2.2 Weld 1-11LS Does Not Exist 2-2210 PC-002 10 ALA-25 C2.2 Weld 2-12LS Does Not Exist 2-2220 11 ALA-12 C2.2 Weld 4LS - 205 2-2310 12 ALA-11 C2.2 Welds 34LS, 36LS 205 2.2310 13 ALA-13 C2.2 Weld 60LS . 205 2-2311 14 ALA-11 C2.2 Weld 43LS 205 2-2313 15 AIA-12 C2.2 Weld 2LS, 4LS 205 2-2313 16 ALA-13 C2.2 Weld 52LS 205 2-2314 17 ALA-6 C2.2 Weld 2LS 205 2-2316 18 AIA-13 C2.2 Welds 1LS, 2LS 205 2-2317 19 ALA-15 C2.2 Weld 3LS 205 2-2411 20 ALA-14 C2.2 Weld 1LS 205 2-2414 20A ALA-11 C2.2 Weld 12LS 205 2-2417lPC-002 21 C2.6 Items 258, 259, 8 2-2700 O v 260, 261, 262 AUGMDTTED EXAMIt&TIOJS 22 A?R-4 4-10LS 205 2-2110 23 APR-4 4-14, 4-16 205 70 2-2110 24 AIA-24 1-2LS, 1-4LS, 205 2-2111 1-7LS, 1-BLS 25 ALA-23 1-18LS,1-47,1-47LS, 205 2-2111 1-48,1-48LS PC-002 26 ALA-27 1-46 Does Not Exist 2-2111 27 AIA-24 2-1LS, 2-4LS, 205 2-2120 2-7LS, 2-8LS 28 ALA-23 2-18LS,2-47,2-47LS, 205 2-2120 PC-002 29 N.A-27 2-46 Does Not Exist 2-2120 O[h DEC MISC-04/42 PAGE 2 OT 2
1 r RESULTS INDEX j i !
- CLASS I TAB !
i j Reactor Yessel 1.1 j 1
- Pressurizer 1.2 i Heat Exchangers and Steam Generators 1.3 1
l,
- Piping 1.4 l Pumps 1.5 j 4
1 1 Valves 1.6 - 1 1
- 1 !
L t I CLASS 2 j Pressure Vessels 2.1 l
- Piping 2.2 i
j i i Punps
- 2.3 l 4
Valves 2.4 l 4, O f 1 l
~ - . . - - . _ _ ~ . . - - - - - - - - - - - - - - - - - - - - - - - - - -
O NO EXAMINATIONS THis OUTAGE 7
. _ - _ _ _ _ . _ _ _ _ _ . . _ _ _ . _ . _ _ . ~ _ . _ . _ _ _ _ . _ _ _ _ _ _ .
! 001 FNP-2,.M-o 5
- l wastimeMouse rosetnic componAvion 1 ,
REV. I 3/9/84 apa-i 2iio
- O j
! 3R ES SURlZER NO77_E TO VESSEL - ! W E _3 5 uPPart. HzAe THM. s 3.88" l l 7 iY Mo *IY Ih i w
# E.g g.4502 [g / \ ustLoAPR-14502 l 7 I IR4 i
& Q % % .*
^
s"b$r's r4 - hP R. I-4 2 0 8 1*g b %' apati-45o , , IF, / , ,
" 5 IR5 )
\ + '8 ' 4 S,,E N 1 Y l M Aw y"
' 8 AP R-i-45 o' REF i . '*i, 5
*4T4.L*ihta= l i
l l IR6 4 3 h- L.owspe. wt Ao m . 3. . I i 4 Nortle to Vessel lields
\O 1 Clad Patch 16 Marway tolts Dil GEN. REV. 3
,----w*
f * 5xITCM EX AMIN ATION SUMM ARY FOR 002 n (Ql N / 2 3ggy 3 .. h PROGRAM $ KETCH
- REF. REF UT PT VT
($Et T A8 Cl IDENT NO NI NRI Rt NI NRI Al NI NRI RI NI NRI Al REVARK$ h f 4 IR-1 X g l 4 IR-2 X 4 IR-3 X 4 IR-4 X
,rs 'L] /^
e.
n .
,, e , h 2 3 3 003 Q ! ik % e k ,* # ]kI f 7 s
ki ! 1 O% d ![ ! Ik k i i i s ME S git i4 :e t' W E R 9 1
*7 d lg 5 : 53 :
k}' e s P e g k@a
=x 4
- N$ahI E
!k liN ! dd s $3 fs" a 4 Q*. fr .
- as , sI
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! e M j 4 M> xw O hh h u tg = l <v.- ,
! g g jj t! !fsi N N N
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WESTINGHOUSE NUCLE AR SERVICE DIVISION INSPECTION SERVICES 0hD
'O- INSTRUMENT LINEARITY CHECK A)
'T 1 M. FARL EV uNsr 2 oAst le-9.P7 rLANT ~
fd, tes. PA" - proct 0URE 757V7#EO AN4,p EXAMINER 7 LEV E L II i EQUIPMENT INSTRUMENT TRANSOUCER MAKE NAlf $llt b.$"Y l A " M00tL MMI F A t Q. O' UN A
$tRIAt,NO. 8 8 d 78 8 5 TRIAL No. M9N/
$9AM7;itkr 4/c COUPLANT f"' ANGLE Id
- 4 SCREEN HEIGHT LINEARITY VERIFICATION 100*. los 80*- W, 80* L,, 409 W 20%
ij [ - IST SIGN AL 2NDSIGNAL NN N A2 s b 8 d #A N* O * /I N MN LIMIT $ 2ND $1GN AL MUST St 50% OF 18T SIGNAL,WtTHtN S% FSH i AMPLITUDE CONTROL LINE ARITY VERIFICATION CRIGIN A L $1GN AL SIGN A L CS CONTROL SIGN AL AMPLITUDE AMPLITU DE CHANGE AMPLit uGE LIMITS
]
00% F SH -408 d9 I* 32% 48% i I 90% F SH 1208 /Y N 14 % 24 % 40% FSH +408 8 64 s 96 % i
,e% ,, H .iro, f5 % m.m i
NOTE: MINUS OENOTES CECRE Alt IN AM*LITUQt, PLUS QtNOTE$ tNCRE ASE. ( PCaw settit
~~-~- - - - - - -.. - . . . - . - . . _ , _ _ _ _ , _ _ _ . __ __
WESTlH2 HOUSE El.ECTRIC CORPOR ATION FNF-2-M-025 c/8 APR-6 A DR- t-3100 j D 'r .
$ TEAM GENERATOR _ QQ$
~ - -
8 l 1 8 I a...- -----l
!_ t35.Be" o.0 -
. nac,.se cmc. '
1 I xsxs u , 1 O 3" Channel Head to CP(Tys)S Note u / - Tube Sheet Weld
= (Typ) See Note CP(Typ) See Note 10' 5.3" ACTUAL AVG.
O Steam Generator Channel Head Clad Fatch: Steam Generator 1: CP#1 Hot' Leg - CPf2 Cold Leg Steam Generator 2: CPd3 Ho: Leg - CP#4 Cold leg Stean Generator 3: CPf5 Hot Leg - CPe6 Cold Leg I 16 Weld: 2 15 l Loop #1 - Weld #1 = 1-1 Loop #2 - Weld #1 = 2-1 I O O 3 Loop f3 - Weld #1 = 3-1 Inner Radiused Section: 13 'O C' 4 SG 1: IR1 hot leg; IR2 cold leg SG 2: IR1 hot leg; IR2 cold leg s5 SG 3: IR1 hot leg; IR2 cold leg l ll! '6 10 7 Manway Bolting: g Bolts il thru 16 = Hot leg Bolts 817 thru 32= Cold Leg O loop Nurter precteds Bolt Ntrtber Example: Loop 31 - Bolt 81 = 1-1 Loop #2 - Bolt 61 == 11 teco 63 - Enitti 2-1 DI2 GEN. REY.3
SXETCH
~
EX AMINATION SUMM ARY ron 006 h! i v 1987 h PROGR AY SKETCH
. REF. REF. UT PT VT f ($tt T AB C) 10 TNT.NO NI NRI Rt NI NRI RI NI NRI Al NI NRI Rt REMARKS
~
9
$ 3 1-IR1 X c
h 3 1-IR2 X 3 2-IR1 X 3 2-IR2 X 1 b 1 r i
I WESTINGHOUSE NUCLEAR SERVICE DIVISION 007 INSPECTION SE RVICES 1 O \ VISUAL EXAMINATION DATA t / i V N M8A* / *J/dd PLANT d N.[A8 LEV UNIT $4tTCH
$YSTICOM9 $YEAN $ A N E W A 7'O A FRoctDURE ?A Y Y $E V 7 NA l E x AMlNin AA,o l '= n >h. An - - ? OATE /0*7 27
[ ' I LE vt L I2 RESULTS vi$yAL AIDS REMARKS NU R NI NRI RI W& W wLsr e P ~'rewr Du v A1 Mars G x.4a 11 2ns y Ef,t*62r 0074 fr Ab 3xL E Cm %As & -=_ s 100 A'sel6 fet C doer eiAD
/MMFA AABn Awsseme+sm A r_^_ " A rid M.r.
/J"A / . /-TA2 M uirne.
Afsrf : pdc Em th. sus) eldfin ndes Thr1TED A r 2 '. J ' o d ' adirM Ysi 814CK Lo43 DN ff M ALL/rfA2 &ffV nRetfGAenVD J FORW 459HS
WESTINGHOUSE NUCLEAR SERVICE Divi $lON OQ8 INSPECTION SE RVICES ,q
) VISUAL EXAMINATION DATA runs wTfn FA& G V uu,, 2. sun,c, R PR- l-P ie n sisitcour ST"[AM GEN [ R ATO R pnoegour,n 15 l' A' WEf 9 A MD I enAu,8gn k lN l</ $ i $ ' E $ lA b t /b S Asn lo-B-R9 tsysk u (/
_ e_-- RESUL,s visvAL AIDS REMARKS NNm '~p y yn, i ,, VS 'R" 1NLF T r- Y FMyMSEt% LL$yL)%LF f fAfA tt E fW f fl"c A 1" n t1 T L F 1~ Na1u E wv trere / Ae;g) % fe R 6 RC S S CLAD 1A/A/F R 2 AB f I fuAsesic. viof a fl A T~io Als .
/2fRI 2f R ?.) rYban13 A NOTf: Nf EtAm tH.s O A L et ARITV tu1 L T.Z M E D J,;L 2 V .' 6 ' f2hTt4 M t ALACr l ulf ora lA % NEWLAL AREV AAcK GRo0A)D P
l l (wJ l 8 0mu 45834s
, > a ,A.. s --a,-2 msAA- "k- E4-- 0" J = G& s @ *4-O am-+6 -^4 m -==~~ ==---=== = --~~'= ~~ ~ u J
l j l 2 i NO EXAMINATIONS THIS OUTAGE d 4 f l 1 i
.~_..---.e,e,,-..m.c._- %, ....-m. ._, ,,_ --- _ - . . , - - n-'-w-rv v e -ve------w-=m,- w e C = m-e-~ -ww--'---e*N-Wa'ev=*v"-w"
009
..1,........<-1........1,.. ,,,. . ..,,
O _. A PR- l-5110 i R.C . ol W 3 SFAL HOUc; LNG ROLTING
- 7ero Reference 7
il i d . 1
' /^ N 2 l J
~
/
Q 8
% m 6
0 4 l l l 1 (- 7 y 5
\
NOTE: Loop Nue.ber Precteds Bolt Number Example: Loop #1 - Bolt il = 1-1 Loop f 2 - Bolt 01 = 2-1 Loop #3 - Bolt !1 = 3-1 12 Bolts 2.0" Dia (per pump) D64 GEN. REV. 3
)
SKETCH APRl-5110 l EXAMINATION
SUMMARY
l FOR 010 I,)
%- l G ,
1987 SKETCH 2 '8% RAM
- REF. PT VT MT w
j (SEE TAB C) IDE NT. NO- NI NRI m m g Al Ni NRI RI NI NRI R1 #"** g 5 1 81 to B12 X X X 3 2 LIGAMENTS X PUMP 8 s e d l O l . 1 1
WESTINGHOUSE NUCLEAR SERVICE DIVISION 011-INSPECTION SERVICES DATE /o - /o - S 7 , STUDS, BOLTS AND NUTS ULTRASONIC EXAMINATION REPORT PROCEDURE I S T /6 PEVI, A/MD R. OPERATOR / M CI,.2PA9 SKETCH NO. A PR -)- 3/10 i R.c.. Pw"P"0"S w. PLANT 'Jd2 FAPIEy UNIT 6L LOOP A COMPONENT Hoo < na Bn /ryg6 i EQUIPMENT INSTRlHENT s TRANSDUCER IDENTITY Some, m4RK r 5/; oF07FE SIZE
- 3 7# "
FREQ. .2.Ar$N2 i i SERIAL NO. _D /s6/ 7 CALIBRATION NUTS, STUDS, BOLTS LESS THAN 4" DIA. BACK SURFACE SIGNAL 80 % F.S.H. STUDS BOLTS 4" DIA. AND GREATER CALIBRATION BLOCK N0. A//M CURVE "A" A/[4 % F.S.H. i
.lRST SIGNAL FROM HOLE SECOND SIGNAL FROM HOLE A//A % F.S.H. l CURVE "B" SECOND SIGNAL M/A % F.S.H. FIFTH SIGNAL A//4 % F.S.H. ;
THIRD SIGNAL M/M % F.S.H. SIXTH SIGNAL 6/4 % F.S.H. FOURTH SIGNAL A//A % F.S.H. SEVENTH SIGNAL A//A % F.S.H. CALIBRATION CHECKS d /4 M d fJ/A EIGHTH SIGNAL A//4 % F.S.H. EXAMINATION RESULTS ITEM RESULTS VIS. ISI-8 NLf1BER NRI RI COWiENTS SAT UNSAT Bolts A-1 THRU A-IA X O l LEGEND: NRI NO REPORTABLE INDICATIONS RI REPORTABLE INDICATIONS l
. WESTINGHOUSE NUCLEAR SERVICE DIVISION 012 INSPECTION SERVICES SURFACE EXAMINATION DATA l.
etAnr_ tim FArn18 y un,r A sanren A PR -l- 5>>6 svsrtcour. R C. ?um P 'il"font thuenaL. Golt/Mrenoceouns n> - 70 Revi sc,1.2 axAulnen $ $$ Lave 6 a
$~E g' W*y dh ' ' ^ ' 2 DAre /n-Ja -*>
^
Pj/T T SATCH NOS MLT, cLEANan nourrunni knwAAv L-lo rail & M] peueinANT (UAtkhs.nr m a rx < ItlM WM F/ v>< / y AM Gn 7,y DEVELOPin EXAM.uSDfUu 8 A 7c # # 87 ear 3 gguoygg l ,gg /O.* o f /Ald //.* .tr ,
.IDENT RL8ULTS
- Numan mi . ni TEMR F' hal T1 A= l SS TalAu A IL O o 4
e l O PomM dessec
l WESTINGHOUSE NUCLE AR SERVICE DIVISION INSPECTION SERVICES 013 , (g VISUAL EXAMINATION DATA PLANT JN./MZEV unit J sxETCw 4A4 - /- 8/ /C
'9' 555 S kN 7 NO l sYsiICDup A. d POMA SFA L Mau1>AM EoL7s#&- pRDCEDURE E X AMIN ER
'"Y- '
--t- 'e D AT E
~
/O*/8~82 LnvnL a f ~/ l IDENT NUM8E'R NI NRI RI .
l
/2 86475 X f1Asxt isar- Msrs ? Lis,vr or<ir.r e sors aer '
(Re us s 3 - D TMo SchreNrs on As/ BoL 7:r. j 2-10 3 O ('V O PORM 459340
WESTINGHOUSE NUCLEAR SERVICE DIVISION Qjf INSPECTION SERVICES ('~} VISUAL EXAMINATION DATA Ia PLANT - fAklbI UNIT 2- sKETcw b08-IOlM syst/ comp f.c Pomp AEAt And iMt, &rria, PROCEDURE LSI'8 86 0 7 SMOI E X AMINER /
" ~
14 A - I DATE /d ~ld 'A 7
/ LEVEL D '" f RESLTS
' REMARK $
Nu BER VISUAL AIDS g g g RcPs ArAo >< numsw miau - Meest ticAmedfs v O i FOmu 453343
NNNN MNC CNATI N FNP-2-M-025 REV. I 3/9/84 O VALV E 3031:ES AOR- I-6 2OO , 015 f prMA9KS ITEM ISO VALVE SI7E VENDOR 6" VELAN 125 & 12N 1 1-4309 V051A 6" VELAN 125 & 12N 2 1-4210 V051B 125 & 12N l 1-4109 V051C 6" VELAN 3 ' 6" VELAN 125 & 12N 4 1-4309 V021 A 6" VELAN 125 & 12N 5 1-4210 V021B 6" YELAN 125 & 12N 6 1-4109 V021C 6" VELAN 125 & 12N 7 1-4106 V076A 6" VELAN 125 & 12N 8 1-4209 V076B 6" VELAN 125 & 12N 9 1-4108 V077A 6" YELAN 125 & 12N 10 1-4209 V077B 6" YELAN 125 & 12N 11 1-4308 V077C
~
6" CROSBY 12$. & 12N 12 1-4502 QV031A 6" CROSBY 125 & 12N 13 1-4502 QV031B 6" CROSBY 125 & 12N 14- 1-4502 QV031C , 12" COPES 165 & 16N 15 1-4110 V032A 12" COPES 165 A 16N 16 1-4211 V032B 72" COPES 165 & 12N 17 1-4310 V032C 12" COPES 165 & 16N 18 1-4110 V037A 12" COPES 165 & 12N 19 1-4211 V037B 12" COPES 165 & 16N 20 1-4310 V037C 12" COPES 16S & 1GN / . 21 1-4311 OV016A 12" COPES 16S & 16N 22 1-4111 QV016B 12" COPES 165 & 16N 23 1-4311 QV001A 165 & 16N ! 24 1-4111 QV001B 12" COPES O D67 GER. REY. 3 I I
i 1 i WESTINGHOUSE ELECTRIC CORPORATION FNP-2-M-025 APR-l-4 l 10 016 A. e 12.
.i A c.c.u mu ture a Di s c.na. (c. s.T Leow 1 sc.H s4o C/B ALA-3 SKE21cV2021 is-ccA-34 Il f r Q p L 10 14 3
g MND J
/ C e h f(W.sO ,
p' p BEND M s F. 1.2.5 C. i Iso I-4100
" i'2." CC A - 2A.
ggy, g g) SHIELD WALL CPS-11 8 ) 9 ru, / C C 4
/ fi n
=
f
=
!(! fy n/,
BEND e 7d D l' AS 2SI-R357 - - - - 5 2SI-R352 SEMO 7 C 251 R358 251 R351 ; 0S E E 251-R359 F 251-R354 G 251-4190 H I 2SI-R189 251-R336 4 0'e l J 251-R187A K ISI"RI87 14-BW 12" 12-se
- t. 55-11934 D23 GEN. REV.3
_ _ _ . - _ _ _ - . . ~ . _ - .
i SKETCH 0 l EX AMIN ATION
SUMMARY
FOR Ol7 l [te-): 3 1987 I v; , h PF OGR AM SKETCH s REF. REF. UT PT VT f SEE T AB C) IDENT.NO NI NRI R1 NI NRI R1 NI NRI RI NI NRI RI R EM AR KS E V032A E 5 15 X SKETCH APR-1-4110 E I (O t 1 (G l l l
WESTINGHOUSE NUCLEAR SERVICE DIVISION Qj$ INSPECTION SERVICES VISUAL EXAMINATION DATA fh J PLANT .M . EA # LIV UNIT E SKETCH A /~dAdC SYSTICOMP \lA L u m banIft PROCEDURE YSI* S ; AfV 1; AMD, i E X AMINER dd
- OATE ll* 7 * # 7
[ (EVELI[' RESULTS
' VISUAL AIDS REMARKS NU H g g g ITf'M i s' FL As M L/4-p+ T VALVf Dr$ A ssimALJE.h .
MI Rf A f, MAAVA BAr AsMus t- $1 AL fut/ Ace e I Astrdesew /A4rinLv iot%Aef , a ou H s Art.s AsstnALV, VALvf Vo 32 A A M 1 - 4110 se
.- l l
l l i l l l O FORM 460343
l 1 l i l i 1 J d 4 i NO EXAMINATIONS THIS OUTAGE a 4 3 I i i
l mN s use rLcemic commion REV.I 5/12/87 FNP-2-M-025 : MAW SmM A P R- 2-21 10 3 G,',' o. o. 1. # sg MlN WALL C/B Apg.4 019 5 - SC H - 80 C/B ALA-26 I p 10 0
- '5 F
- I wp
') $ NU 0 t u i
bh d m ND
\ +\ +s,6
+4 h 3,@ to y a@ 3 d b' n A* w;.9
= -
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/
5- s c. t..s.
/0 - 3 fo" 8.W. A'#
B" 8.C . ,s A 2xsR-518 a - 283 -s2o O "o w to o ArracumenTe GEN.REV.3 D93 1
SKETCH
~
EX AMINATION
SUMMARY
FOR AUGMENTED 020 1987 s h PR OG R AF.1 SKETCH
- REF. REF. UT PT VT (SEE TAB Cl IDENT.NO. NI NRI Al NI NRI R1 NI NRI R1 NI NRI R1 REMARKS 3- 22 4-10LS X X
l 23 4-14 X PRESERVICE 20 4-16 X X SEE TAB F INDICATI0tl m 0 l l l l 1
._. -. 1
PLANT UNIT SKETCH WESTINGHOUSE NUCt. EAR SERVICE DIVISION 2M. FARL Ev 2. - AFA' 2 //O INSPECTION SE RVICES SYST/ COMP. PROCEDURE MAIN STEAN HEADER { 3 i," ) ISI-205WEW2 AMD3 R WJK WELD ULTRASONIC EXAMINATION exay en n oATE INSERVICE ,jf f[(tehv g 2;C &f}&,/3 jg. j 7_ g 7 STR AIGHT BE AM SCAN AXtAL SCANS CIRCUMF E RENTIAL SCANS E QUtPME NT TRANSDUCER CAllORATION CHECK DIRE CTION 0 DIRF CTIONS 2 & 5 OtRECTIONS 7 & 8 INST S/N S/N Go7311 A D1553 S DI KE 3 Ei INITIAL TIME ] suuc MW L seze f. o ~ o,5 "x j. o " a3 ~ x j,o *- no j_c_ _ o g33 *=_;
'"co 2.2 5 N/fL 2.25 MHL 2. 25' MHZ_ n' I~c._ 0 94R * 1 06208 E A ~~ E O' 4s* es*
R E P. R A T E CAusRAviON
'S'^NcE FROM SCRIBE 4*EF. UNE TO o STANCE FROM qq egg fgjg ai SIGNAL Suwt EP 5GNAL SWEEP 5GNAL SWEEP SCRIBEMEF. LINE TO K [OC TION AMPL TUDE POSITION AMPLITUDE POSITION p gg 50% DAC AMPLITUDE POSITION PEAK So%DAC [0 //OO REJECT LOCATIONS LOC A TIONS nrF '/4 r Ro % 1. 4 o^ *'$c , 3/4 r 75 % 4. 2 O* 9 195 MIN l ~r RO % 20 80 % 2. 2.
FILTER 2. T 30 % 4. 0 3f% 44 HI 3 -r i s y, c.. o in7 c.s e lNAt Tm LIN CHECK SAT-SUCA8tE
/ZENt.folTN@ A -4 UPL ANT THICKNESS f, g "
PATC L62. CAL. GA1N 8^SE
$N N W& Sf h TE w. f (0 f wtLD SCAN OlHECTION E X AMIN ATION CROWN RESULTS TEMP. MET REMARKS NUM9ER SCAN 2 5 7/8 O LaulTATIONS CCNFIGUR ATION WB NRI R4 g WELD C. ROW e Cor'7/20N E *d T FApS ti 6.sP t&*f 4-10LS PAR PAR PAR PAR PAR counGURATnDM AND samm As un trn t
YES TM 15Ammaa T* _fis-efv Thr ALL- sf 77te AtaA Ex% arfp Av TW AMLe etM was Enesae war;n A Anse nTw _seAa
}4Liolao]r?
N w
O O Q PLANT UNIT SKETCH WESTINGHOUSE NUCLEAR SERVICE DIVISION 3 M. FA R L E.Y Z AFR-2-21to INSPECTION SERVICES svsTecome. f j PROCEDURE MAIN STEAM HEADER ( 3 4 ,/ ISI- 205 Rev.2. Anna Ec. i,2,3x5 WELD ULTRASONIC EXAMINATION oAre INSERVICE Ex .,3En(,j, pjk]g tevtL;s} j f/ ~ 7 Q l g } { ,2 )3 yn.jg g7
^ CALIBR ATION CHECK E OUlPME NT TRANSDUCER I E CT ON O OtRE Y ON 2&5 De EC ON F& 'NST. S/N s'* GO7311 A Df6536 DI553[ INITIAL TIME ,
SONIC MARK $ sert J. O O.$ ")( / 0 " O_ g " X f.0 " O* j,(_ g yj g M '_ rato 2.25 N#I 2.2 6 M#I 2.26 MN Z_ o' f c_ ///5 '" 059'll E A~ctt o' 45* DISTANCE FROM 45 ' DISTANCE FROM R E P. R ATE CA L18R A TION gg* jg fgg '1F SIGNAL SfvEEP StGNAL SWEEP SCRIBEMEF. LINE TO secNAL sevEEP SCRISEMEF. LINE TO
}[ REFLECTOR LOCATION AMPLITUDE POSIT EON AMPLeTUDE POSITION PEi4K 50% DAC toc,y,gus AMPLITUDE POSITION PEAK sosoAc LOCAT ONs Yb,[C.153$
RENCT O FF t/4 T 80% 1.4 DAMPsyG 3N y 7p*/. ~
- 4. 2.
D*& 145 MIN I T R O 7a 2.0 R O */. 2.2 ritTEa 2 T 30 % 4. 0 2 5 */. 4.4 N[ _3 I 18 I, 0.0 15 Y, 6. 2. FINAL TIME LIN CHECK SAT
. C AL. OLOCK IZ BNc 166kC APR t-l A 3 ? CAL GA'N G5 b #8 b h5 Q /b ="'ff" f
^ SCAN DIRECTION CROWN RESULTS WELD TEMP <T E X AMINATION REMARKS L
NUMGER 2 5 F/8 O LIMIT A TIONS CONF IGUR ATION NI NRI RI SCAN 4-N + 1S*r PAR
- PAR PAR PAR PAR COMPONENT CONFIGULAfl0N eo m oo~en r c.on m ,v o r..a GROUND 4-% + 16 1 YES PAR PAR PAR PAR AuD u/rzn crown GRO UN D GCE ATTAC. neb SHEET
.M$ 7483 ti Aspap TD Sar.p4Fy TM Ar ALs dF TMa A arp A fyAmeg Ea dy T#2 API &M_St M mrJ $ f.x! ensees unno A $h16 MMAL fc Ay ,&b4( fs,/pg/gy ca CC
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i WESTINGHOUSE NUCLEAR SERVICE DIVISION 024 INSPECTION SEi1 VICES
. SURFACE EXAMINATION DATA '
rLAni J. M . P A R l E Y uns, 2 sufics A P2- 2.- 2 /lO srsitcour. M41M STEA M YEA D E R. (% Peo nEISI-90 REV.lFC l}2 ExAu\nfR A AA ! fabnw & ->x D 1Y oA,E /0-/S-67
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l E e ATCH NOS. M/T CLEANER touirutur Y-S MACHArlvy PEoBE l Y- 004 l PEN ETR ANT ' DEVELOPER EXAM.MEDIUMmeney ox aA-so Paos l stack.uawT 047CN #8(a00&9 REMOVER CHECK TIME
.IDENT. R ESULT5 avMata "'"^""'
si uai ai TEM P. F'
//-/4/ X 5/, l 4 - llo X s/o
- 1 I
l I 1 I l Norfl
/0 $ /C7' 7537" k/As PERYo 2mtD O oil /0 -Is'. 87 4HSG -oAM. 8 k/trAltsStD &V ? W,'[f ${UhW -
1 comu aune f
gN3 /0//y// 7 # 3 "* "" E """'" """# # ' FNP-2-M-025 O ' M is sr Am A A P R-2-2 I I I MS # I 34.s5 " o.D.-2..s i% t N WALL C/3 Al.A 23 2 2. " - 1. o s s" M I N W A LL. C/8 ALA 24. app 4. h 8 .scH. c. o
- s o C/9 ALA 28 C/l ALA 27 l t" - s e.M . e o /((.7 q ## C/l ALA-30 e 4 j
. SKN11CV027 A SKN11CV033 ,+4 / t,% ' D A >% l 3 a - :
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SUMMARY
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2-2313 EX AMINATlON
SUMMARY
FOR 057 b' -g E 1987 I h PROGRAM $ KETCH m REF, REF. UT PT VT f ($tE TAS CI IDENT.NO NI NRI RI NI NRI RI NI NRI R1 NI NRI Rt REMARK $ 2 g 14 43-LS x l 15 2-LS X 15 4-LS X O I l O
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~
EX AMIN ATION
SUMMARY
' " 062 l
{;43 1987 o PROGR AV SKETCH aEF. REF. v7 ,7 g
- (SEE TAB Cl IOENT.NO NI NRI Rt NI NRI RI NI NRI RI NI NRI RI agyAngg 100% OF FITTING SURFACE i 16 52-LS X EXAMINED ..
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'* SNETCH APR 2-2316 EX AMINATION SUMM ARY FOR QG$
N 7"d 1987 V; -
$ PROGRAM SKETCH a REF. REF. UT PT VT f ISEE TAB Cl IDENT.NO. NI NRI Al NI NRI R1 NI NRI RI NI NRI R1 REMARKS E
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SKETCH EXAMINATION
SUMMARY
068 >E 1987
$ PROGRAM SKETCH m REF. REF. UT PT VT (SEE TAB C) IDE NT. NO. NI NRI R1 NI NRI R1 NI NRI R1 NI NRI Rl REMARKS 8 100% of fitting surface i 18 1-LS X examined E 100% Of fitting surface i _
18 2-LS X examined s - 6 O
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# 2 S F L. 0C s F a.
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SKETCH APR 2-241, EXAMINATION SUMM ARY FOR Gyg l 0,5 3 1987 l
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SKETCH APR 2 24)4 EXAMINATION
SUMMARY
FOR 075 OR! r. 1987 t ) PROGRAM SKETCH O y REF- REF. m g I i NI NRl RI N1 NRI R1 NI NRI Rt NI NRI RI REMARKS y (SEE TA8 C) IDE NT. NO. o I l 20 1-LS X 3_ 3 ! E U
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SKETCH APR 2-2417 EXAMINATION
SUMMARY
FOR
~' 078 (J j~ 1987 lO w PROGR AM SKETCH m RLc. REF. UT PT VT IDE NT. NO. NI NRI RI NI NRI RI NI NRI RI NI NRI Rl REMARKS (SEE T AB Q h
2 3 8 15 X I 20A 12-L X m U
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/ A T N I
A H E 4 E m 7 C I N I F C T T 2 UR e I H - D2 g C E .
. O cgs T 2 C E j T E T a M no A j OE K#P OM S
R P D - RIN s, Oy, A so oj S N FL E , C FE oc sot R z A N S t K88 AM TE T L , L SB s A 7 I I K U R DR S N 1 IS T NO N C S P A E E R Et YX Ri , Ec N _ N
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4 f( % PLANT UNIT SKETCH WESTINGHOUSE NUCLEAR SERVICE DIVISION h^N. FARLE V 2 APR 2 -2.e//7 i INSPECTION SERVICES sysricoue. PROCEDURE RRR SutTION FROM RWST 64*) 15Z 205 KEY 2 MsD3 ft. /,U45 WELD ULTRASONIC EXAMINATION cx,uinen ny t n) ' DATE INSERVICE jq A,,;_7f h_O 2 2r
/0 -N-g7 EOuieME Nr TRANSDUCER STR AIGHT 5E AM SCAN OIRECTION O
[ AXIAL SCANS DIRECTIONS 2 & 5 CIRCUMFERENTIAL SCANS OIRECTIONS 7 7. 8 CAUSRATION CHECK B NST. SIN SA [28239 f~2R239 INITIAL TIME SON't MAKKI seze o.25" o.25" pg o o fjg7 i P "c o- 2.25 MHz. 2.25 MHz OS9'll E AnaLe s15 0 45o R EP. R A TE DISTANCE FROM DISTANCE FROM l Call 8 RATION SIGNAL SWEEP SIGNAL SwfEP SCRISEMEF. LINE TO sicNat swgEP SCRIBEREF. UNE TO 3K REFLgl C T R M UTUDE PO5 MON MU TUDE POsmON pggg SM D AC LOCATIONS AwuTUDE POsmON pggg Sh DAC LOCATIONS REJECT Off 1 r go % z.o no % z.o DAMPING 2 T 35 % 4. o 3o% 3, '/ MIN 3 Y 10 % 6.0 t o 'X A8 FILTER Off FINAL Time . uN. CHECK f3fo /Aff ' SAT - SU CA8LE CAL. at IZ 'RNC -tb NCD A - 11 NT yg,CxNESS .</33 ~ yCgIfm y, Eart# CAL. GAIN S'7 /[ #7dZ TEMP. gcp
^ AN IRECTION E X AMINATION . CROWN RESULTS WELD TEMP. METAL REMARxS NUM8ER 2 5 7/8 0 LIMITATIONS CONFIGURATION NI NRI RI SCAN l 12LS t3*f VES YES PAR CtRe twins N + 15 . n, FLUSH vstD C. n. n ,, n(TEE) en, a GROUND 16 +3 r YES NO M costriaukanow j
Wto/9Al 7 i i 4 5 h f c.. sas er re- n - r7 O t-C 1 e 6 M o 1 I
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.O No. TCY Sketch #) Ident. Mark # 81do/E1 Room # Att. Dese.
250 APR 2-2111 B 2MS-BR3 A121 251 C SS-14783 A121 252 APR 2-2120 D 2MS-BR2 A121 253 APR 2-2130 A 2MS-DR23 A121 l 254 APR 2-2310 R 2SI-R958 A77 1 255 APR 2-2313 HH 2SI-R998 A77 . ! 256 AFR2-2417 A 251-R997 A77 257 B SI-2A5 A93 X 258 C SI-2A1 A93 i D 251-R954 A93 ; 259 l 160 E 251-R955 A90 L 261 APR 2-2413 E 2SI-R132 A105 l 262 . 0 2SI-R131 A105 X 263 APR 2-2417 F 2SI-R66 264 G 251-R65 ,
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'h DESCRIPTION 0F THE SUPPORT LISTING SKETCH !
col. 1 The sketch item ntsnber. Col. 2 The W sketch R and Daniel Const. sketch (CV). Col. 3 The V sketch R identification. Col. 4 The Vaniel Const. (CV) sketch identification marked on the item. ; I Col. 516 Location: The building, elevation and room number where the i item is located. Col. 7 An X indicates a welded attachment on the pipe. !' Col. 8 Describes the hanger and indicates the number of components.
/
Letters the type: V-variable spring hanger, C-constant sering l hanger, M-mechanical snubber H-Hydraulic snubber, Omission of a letter- none of the previously listed. The ntrnber is the number l Gry.ory. 3 DI 25 i l . l
* *'T'";"*u't t'*cT"' c * "" "^T' " %mn 082 REV I 8/7/87 l
CVCS A P R-2-2 2- 413 O wpto M RW ST Cl. MEP W Se < f 3 " N c. s - l'T SCH dos C/8 ALA-14 [ C5i SxE2 icv 23i SKE21CV217 C5 2 SKE21CV232 gCyc3.;7 , C2 a 0 " v5- c sra e IL N iso 314 Ils IS 0 B %
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083
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SXETCH APR 2-2700 EXAMINATION
SUMMARY
FOR Q8d e. 1987 V$ 3 PROGRAM SKETCH
$ REF. UT PT VT m REF.
APR 2- REMARKS f (SEE TAB C) IDENT. NO. NI NRI R1 NI NRI Rt NI NRI Al NI NRI RI e 2-2417 C 258 X i 21 2-2417 D
! 21 259 X 21 260 X 2-2417 E 21 261 X 2-2413 E 21 262 X 2-2413 D O
WESTINGHOUSE NUCLEAR SERVICE DIVISION 085 INSPECTION SE RVICES
/ VISUAL EXAMINATIGN DATA l,
.C) I M.FAP/E/ unit 2 8xErCs A M 24/3 l PLANT d sve.roon r$ n tws r SYST/ COMP _ O\[OSSYbI[ M I8"} PROCEDURE I" 4
- EN7AMOI E X AMINER 6dm A411 E DATE /O*/ "OI
/ ' LEVELII' /
I RESULTS I VISUAL AIDS REMARKS N . "R g g g D 2sz-Rlal X F/AsMlicMT Ref. APR.-2-2900 IrrM Ho 262 2 2ST-R 132 Y flASHbdM7' REF, A PR-2-2700Irrm floiloI U' F ORM 458343
l WESTINGHOUSE NUCLEAR SERVICE DIVISION Q8$ INSPECTION SERVICES ,('] VISUAL EXAMINATION DATA rusr J'M.FARLEv' usir 2. sKerca A PE 21/17 '
/
srsricour RR R Soc.%d FRom EvlS7~ bu')enoenouns ISI-8, Ec/. 7 Amb.1 ex4uisen -
~O93r 2._ jdW oars /c - /// - 87 tu vio n ('
RESULTS VISUAL AIDS REMARKS n'D$h , _, ,, C SI- 2A1 X FLAsMlidMr PEF APA-2-2700 TYEM 258 D 2SI-R95$ Y f/AsHLIsHT off.apR-2-2100 TTEM 269 E 2sI-R9ss M PLAsillidHT RER APR-2-2900 TTEM 2/oD I i I l l
4-4 s4eha% d. m.,. -=~4 - ~-e - - -M - - -- s a ma a 3 I I I I t t 4 t a h 4 4 9 NO EXAMINATIONS THIS OUTAGE i I 1 1 a j i 4 1 ? i i i I i : 4 , 4 I 1 1 i i i i l t 1 i d
s il G i 4 i .i M 4-j j i 4 1 1 l I'P NO EXAMINATIONS THIS OUTAGE } l 1 ( 1 1 i j l i i ( 1 .i 1 i . l i 1 I l
TAB E FNP UNIT 2
- ISI 1987 REPORT l ALA8AMA POWER COMPANY
( l J. N. FARLEY NUCLEAR PLANT UNIT 2 INTERVAL 1/PER100 2/00TAGE 3 TA8 E - ADDITIONAL EXAMINATIONS PERFORMED
- 1. Class 1 System Leakage Test in accordance with ASME Section XI 1974 Edition IWB-5210(a), leak testing of the Class 1 Reactor Coolant System Pres w re Boundary was performed prior to startup following the fifth refueling outage. The testing aw, completed by plant personnel on 11/30/87 using procedure FNP-2-SOP-1.4, Reactor Coolant System Leak Test, offIclal Test Copy 871130-1 and
- procedure FNP-2-STP-9.0, RCS Leakage Test, performed on 11/30/87, Official Test copy 871130-5.
Results were satisfactory. A copy of the completed test procedure is retained by the Farley Plant Document Control.
- 2. Class 1 and 2 Hydrostatic Testing Nydrostatic tests of Class 1 and 2 systems were performed during the third outage of the second forty-month period in accordance with the requirements of ASME Code Section XI, Articles lWA-5000, IWB-5000 and y IWC-5000.
The table below is a listing of the test procedures used and discrepancies found during testing. Completed test procedures and work requests are retained in the Farley Nuclear Plant Document Control for the life of the plant. FARLEY NUCLEAR PLANT UNIT 2
- HYDROSTATIC TESTS - FIFTH REFUELING ,00TAGE i
DESCRIPT10N . WORK PROCEDURE OF LEAXS REQUEST
- 1. FNP-2-STP-160.22 None N/A WA 71370 RHR Train A to RCS Hot Leg Suction Line
- 2. FNP-2-ETP-4255 Packing Leak on Valve 139857 WA 54379, 70005 thru 02P23V001A 70038, 70041, 70042 Class 2 Containment Packing Leak on Valve 139858 Penetrations 02P23V002A Packing Leak on Valve 139859 02P23V001B Packing Leak on Valve <
139860 i 02P23V0028 i ID:9332r/20388:50-1 l
^
Diaphragm Leakage 139862 c
- 2. FNP-2-ETP-4255 WA 54379, 70005 thru on Valva 02E23V0048 70038, 70041, 70042 139861
' Di @ rage Leakage C1 ass 2 Containment on Valve 02E23V037B Penetrations Diaphragm Leakage 157889 on Valve 02E23V005A Diaphrage Leakage 157890 1 on Valve 02E23V037A Diaphragm Leakage 157893 on Valve 02E23V004A Diaphragm Leakage 157895 on VaIve 02G21V005 Diaphragm Leakage 139095 on Valve N2G21V225 '
139095A f 1390958
)
Diaphr.sgm Leakage 139096 on Vaive N2G21V275 139096A Diaphragm Leakage 139884
/. . - on Valve N2G21V107 ; O/ on Valve N2G21V015 Diaphragm Leakage 139883 on Valve N2G21V020 139883A Diaphragm Leakage c123881 on Valve N2G21Y0138 ; Seat Leakage on ,
139863 < Vaive 02P17NY3045 Leakage frce temperature 157897 j element 02E23TE2830P-N 139098 Leakage fron temperature 157896 element 02E23TE2807A-N 139100 i Leakage fron temporatura 160054 eIement 02E23TE28078 139099 Le:Aage from temperature 180069 si' ament 02E23TE3534 139097 l
- LO' l
ID:9332r/20388:50-2 - i - l
'f-.. -
4 { l 4 3. Stoc,3,Geruttor Feedwater han pdo-Jeducer Weld Examinatlons
%.W. n_atio.ns and ih sult:
Thimgh participation in the Westinghouss evners Group, APCo learned that fe.o.: ster line cracking at the staan gerwrator mzzle could still be a
.- pt ablem in operating poner plaats.
Therefore, it was subsequently decided to examine the Unit 2 Steam Gener ihrs A, B and C feedwater nonle to reducer welds during each refut ing outage. These welds were examined by a 100% ultrasonic t exas'natlon cluring the third and fourth refueling outages and found a w ptable. Thess welds werc anin examined during the fl?th refueling outage by 100% L ultrasonic testeng an Octuoer 5 and 6,1987 using WA 70045 procedure FNP-0-ETP-4119, of f Icial Test Ccpy 6?M02-1. AII examinations we.e acceptable. A copy of the completed test procedure, along with the appropriate certifications, is retained by the FNP Document Control.
- 4. Visual f:*xas,l_na_ tion a r3 Cormseal Soltina Assemblies The new reactor vesael ceaossal colting assemblies added per Production Change Hetice 887-2-4 N were visually examined prior to inst.allation.
All the .eSults were s~:eptable vd are included in this tab section. All the pertinent cart fications are includ-d in tab t The procedure
, utilized is included in tab H. These examinations will be considered as
,re;ervice examinations, so the normal inservice examination schedule will not be altered.
- 5. S_ tram Generator Primary Manway Cove? !astener ExzmLnations _
J.. 1 The new afsan go, orator primary manway cover fasteners added per Production Change Notice B87-2-4228 mre examined by the suppiler using visual, U7, and NT techniques. All the results were satie. factory. All the partirH nt Information is included in this Tab sect 8m. These examinatla s mit l be considered as preservice eratalnatiws, so the normal Inservice exsur.5 tion schedule will not bis altered.
- 6. Miscellaneous Examinations Performed by P,!y_nt Personnel The fol. Wg dye-peetrant exsm: nations were performed by plant personnel
' .- prior t; aw during th Fif th refuellrg outage.
- a. "B" Steam irraerator Prieary r.arnray Cover Cc its . 01/09/87 3.. b. C" 9cector Cwirnt Pumr> Mal Housing 1 sitz - 01/13/87
- c. Valve studs on 02E21V032B - 31/14/87 and 11/09/87
- d. Valve studn oc 02E#iv0 51 A - 11/17/87
- e. Volve st ds on ofE21V032C . 11/09/87 E f. Noy-to-onet studs on Oh1V0210 - 11/11/87
- g. Sody-to-bonnet studs on Qt.I1WO510 - 11/11/87 The exasnst'.on sheeta are incluu in tro s Te5 sar, tion. A copy of the
'l procedt'n and ?pi scahle ca tificat lens is retained by the FMP Document Control.
i ID:9332r/20388:50-3 g .-
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RADFORM TOOL COMPANY, INC. P.O. BOX 150 e 630 FIFTH AVENUE e EAST McKEESPORT PA. 15035 TELEPHONE: 412/824 3122 TWX: 710 797 3676 CERTIFICATE OF COtJF ORMI TY ~ P.O.No. Date: SEPTEMBER 8,1987 - MN-67775-D Th a w- 1s to cert 1 4y that the moter1al nhapped e on sub. wet order 3s in conformance wi.th your mat er i al r equi r ements por your drawings end/or purchase or der requit emorits p l u t, t he f ol l own rig document c _ _ _._ _ C./. N_ _ _* 1 _ _ _* . . _ _ _ _ _ _ _ _ _
. O Temperature at time of inspection ____________70 F_______________________
- 1. Mat eri al Spec._01EI_4140__________________________________________
- 2. Heat No.__69Q;Q.___________ _____....____ __________________.___. ___
'.. Dwg.Rev., Item, 6 O t y . _ _5_.7 67_ C_5h I M 4_ _R_E V_ _. 2_ _ _ _12 8_ _F C_S_ _ _ _ _ _ _ _ _
4 Sertal No.______________________________________________j________ O 5. I n s p e c t i o n h e q . _ _ _ _ _ _ _10_0_ *' _ R_ A_ _Q F.O. R_M_ _ T_ O O_ L_ _ C_ O_M_ P_ A_ N_ Y _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
- 6. U.T. - L.P. or M.P. Spec.________________________________________ ;
- 7. P1ating Spot.___________________ _ ..,,_____________ . .,,..,___ ____
- 8. Heat Treatin9 Spec._'_8__44_ R_C_____.___ _ ___ ___ ___________ __
- 9. Weldin9 Spec.__ ______ ___ __________ __ __________ . _______ __
- 10. M a g n e t i c C h e e n . _ P_ A_R_ T_ S_ _ A_R_E_ _M_ A_ G_ N_ C_ T_ i q _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
I
- 11. Destructive Test._____._ .N_/A_ ____ -
- 12. Clean Spec.____G_O_O_D_ C.gM_MCRC.I.AL_ _____ . ____ __ - ___________ ___
f 1~. Pactading Epec. _ _ Q O O D.. _ C_ O_ M_ M_ E. R - G _I A_ L _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
- 14. Manufacturin9 Req.__ _________ __ _ _ ___ _ ___ .. _ ___
- 15. Contamtnat1on Re4 . P_ A_ R_ T_9. A_ R E_r_M.. E. R. C i. j k_ V_ _F_R_ E_ E_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _
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W Ii i 5 1985 [4 l , Qly[k N ens wro. Kentucky 42301 l l (502) 92& 4400 gy_ w , l v Date June 13, 1985 -I CERTIFICATE OF TEST 5 Joseph T. Ryerson & son, Inc. - P. O. Box 8263 Chicago, IL 60680 . Attns Jean Malec Test Report Desk 'f.- Mill Order No. 7384, 7383 Custener Order No. 11A3719, 11A3718 We certify the results of our tests os follows: ASTM A322-82 Size 6 " RD, 3 " RD
. Hect No. 69525 Type A4140 Ryerson 8010G Fmish OH-VD-HR-ANN-SS-MB ,
Chemical Anotysis Copper Phosphorus Sulfur Silcon Nickel Chromium M oly Corbon Mongenese IO14 T014
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.32 I16 .47 717 '.1 1 )
140 .' 8 4 !
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Vonodium Leod Baron Groin Size Tin Aluminum
.045 .003 7-8 (s
I i Mechonical Properties-I Yield Strength Ultimote Str. EL R. A. Hordness l PSI PSI % % BHN: 170-179 Jominy Hordenobility . 2 3 4 5 6 7 8 ! Distonce (16ths) 1 58 58 57 57 56 55 52 51 j Distence (16ths) 10 12 14 16 20 24 28 32 / 46 43 41 41 39 37 37 35 l
. 1 Sworn and Subscribed before me thii 13 day of June , 19 85 - GREEN RIVER STEEt.
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N ATTACHMENT TO DSDN 0381 ' 1 7/8 Primary Manway. Stud (Dwg. No. 1876E96 Rev. 1)
. All parts listed below deviate from .635/.035 cod distance 4
-from end of stud to end of rod inside .'312 bore. -
(78 pcs.) S/N 021 -
.813 S/N 086 - .812 S/N 141 -
.810 S/N 023 - .824 S/N 087 -
.814 S/N 142 - .808 S/N 025 - .794 S/N 088 -
.802 S/N 144 -
.811 S/N 026 - .825 S/N 090 - .809 S/N 146 - .830 S/N 027 -
.825 S/N 091 -
.806 S/N 147 - .009 S/N.028 - .806 S/N 093 - .806 S/N 148 - .814 S/N 029 - .820 S/N 094 -
.806 S/N 031 -
.809 S/N 096 -
.825 S/N 032 - .798 S/N 097 -
.826 ,
S/N 034 -
.806 S/N 098 - .817 S/N 035 - .811 S/N 099 -
.812 S/N 036 - .795 S/N 101 -
.811 .
S/N 037 - .811 S/N 102 - .795 S/N 038 - .801 S/N 103 - .799 S/N 039 - .792 . S/N 105 - .795 S/N 046 - .815 S/N 107 - .801 [ S/N 047 - .813 S/N 108 - .809 ( S/N 049 S/N 051
.828
.801 S/N 112 S/N 113
.796
.812 S/N 052 - .800 S/N 114 -
.792 S/N 053 - .801 S/N 115 -
.801 S/N 054 -
.808 S/N 118 - .809 ' i S/N 055 - .806 S/N 119 - .798 S/N 056 - .807 S/N 120 - .811 L S/N 061 -
.801 S/N 121 -
.800 S/N 062 - .793 S/N 125 -
.810 '
S/N 063 - .808 S/N 128 - .805 ! S/N 066 - .820 S/N 130 - .795 S/N 067 - .798 S/N 131 -
.813 S/N 068 - .826 S/N 132 - .803 ,
S/N 071 -
.814 S/N,133 -
.810 l 3/N 073 - .823 S/N 13a -
.834 S/N 075 - .817 S/N 135 - .803 S/N 080 - .815 S/N 136 -
.810 S/N 083 - .812 S/N 138 - .799 S/N 084 -
.801 S/N 139 -
.794 l
Recommendation: Accept "as is". ' 4 m 9 i 1
l I C3OUTHERN OOLT ,
- s. pantsNam COADOAATION PO 80x Ft96 Jf0Movroouter TREF W AAD dfestitatst SmrWroAucuS40.4 rivJ7 Ft96 )
CERTIFICATE OF COMPLIANCE CUSTOMER: Westinghouse - NES DATE: 9-11-87 CUSTOMER P.O.: MN-67773-D INVOICE: 24018 . The items listed below have had 100% inspection performed and are in , compliance with the above purchase order. ASME NCA 3800 ASME Section j lit. Subsection NB. 71 Ed. through no Add., and the drawings listed j below, i I I P.O. l_T.E M D E S C R IP_T j O_N_ T__R A.Q_E _N O . Q T_Y. I 1 7/8 -8UN-2A (Mod) X 15 3/4 E B7 15197 128 Primary Manway Closure Stud 1876E96-1 HO1 , Dwg. 1876E96-1 HO1 MN67773D + S/N l Heat 8091931/ Heat Code R-1279 S/Ns 021 thru 148 (DN NSDN 0376) (DN NSDN 0381> ] l 1 1 7/8 -8UN-2B (Mod) Closure Nut S. 7B 15207 128 Dwg 2D33326-3 HO1 2D33326-3 HO1 g Heat 55872/ Heat Code R-12968 MN67773D + S/N y S/Ns 021 thru 148 U (DN NSDN 0381) l l I I AELAN f.' bBROADBENT, CMfgT
~
Manager of Quality O i r -i , \ LAAGE BOLTS & NUTS LOJ,Wj STAINLESS & ALLOY
COUTHORN COLT
& F ASTENE A COnpOAATION PO Sox 1tM J to MOMGoute r TELf 6 ARE A tJf ai r28-stS t $*titPoer. tcusA%A Ff f 3P P'M Os, F _]
) j .
v CERTI12 1CATE 0 1: TEST Date: 9/11/87 Report a15197 Invoice e24018 CUSTOMER: Westinghouse - NES - CUSTOMER P.O. MN-67773-D ITEM: 001 CUSTOMER PART NO SBF S/0: 4179-010 TRACE: S B7 15197 1876E96-1 HO1 - DESCRIPTION: 1 7/8"-8UN-2A (Mod) x 15 3/4 Primary Manway MN67773D + S/N' C l o_s uy,e ,S l u d., _ _ _, . _ _ _ , _ _ q{.,Yj___1,2 8 SPECIFICATIONS AND CODES ASME SA-193 GR. B7 ASME Section ill 1971 Edition No Addenda * ( 10CFR21 applies Dwg. 1876E96-1 HO1 CHEMICAL ANALYSIS SOURCE : HT NO. : C_: Mn : P : 5 : SJ t[1 : Cr : _Me : F_ e : Cu : A1 l Ti* MILU 8091931 SBF Heat Code: R-1279 (See attached cert from LTV Steel)
~
MECHANICAL PROPERTIES (Periormed after Heat Treatment) , TENSILE : YlELD .2% ELONG.! R/A HARDNESS 1 CHARPY V-NOTCH TEST TEMP: +10F I ___K S ! _L__Q FJ,S E T K S I '% OJ": s : _ _ R_c
- FT_LBS : __M I L_ L A T : % SHEAR : 1
,_iSee attached cert from LTV Steel) 69-70-70 41-42-39 100-100-100
\ l
( )rts hardness tested 100%. (See attached report) ) Material procured in the quenched and tempered condition. Manufacturing performed ! by machining only. , items UT examined in accordance with SA-614 (1983 Edition t'hrough Summer 1985 l Addenda) and found acceptable. (see attached report from INDT). I Items NT examined in accordance with 420.026 Rev. O w/ Add. 2 Rev. 2 and found acceptable. Items visually and dimensionally examined 100% and found acceptable, items referenced herein receive no known Mercury contamination during SBF processing and handling through time of shipment. Items furnished under our Q.A. Program as approved by Westinghouse Electrie Corp. The material is being supplied in accordance with our Quality System certificate (Manufacturer) ASME Certificate No. QSC-516, expires December 26, 1989.
'S/Ns shipped: 021 -
148
// -K THOKIIED REPRESENTATIVE , page 1 of 2 F e == i ,
LAAGE BOLTS E NfJTS C.'"*=j STAINLESS E ALLOY
I COUTHE AN COLT s PasvaNun conponarioN po sca rtes 3,c uovrooutar rettmoM AAlA(318# MNf$f $pm{gtpQ4r, L(u$gy pt gjp.pppg CERTIFICATE OF TEST ) Date: 9/11/87 Report e15197 ) Invoice e24018 CUSTOMER: Westinghouse - NES CUSTOMER P.O. MN-67773-D ITEM: 001 CUSTOMER PART NO SBF S/O: 4179-010 TRACE: $* B7 15197 l 1876E96-1 H01 DESCRIPTION: 1 7/8"-8UN-2A (Mod) x 15 3/4 Primary Manway MN67 773 D + S'/N '
, . _ _ _ . _ _._gLosulte_ Stud .
_ ,QQ2.8 l R E P_O R I .O E _ N p_N D E S I.R U_Q_T.LV.E T E S_T_!_N G * , l l WET MAGNETIC PARTICLE TEST: l l F10CIXRE USD: 400.026 Rev. O w/ Add. 2 Rev.2 SCCFE CF EIMINATION: 100% AccessIb1e Surfaces i ACCEPTAkCE STO AD: See procedure _a _X _t< MFIM TL%; 10500 CitCULAR 1"FS: 2000 teACNETIID: _X _YES NO ( PAlilCLES USD:14- A Magnag1o E;UlphINT:H-720 Ma gna f I ux OTHEli Bath Concentration 4 Batch 886E040 *with Pie Gage RESULTS OF INSPECTION: 129 pieces examined and found acceptable ('%[CHNICIAN__ _ _ . _ _ LEVEL _ PER_W . W i i l i a_m s . LEVEL _ i i CERTIFICatl0N EIFilaflC4 DATE_ CERfiflCAfl0N EIPitES_LO 8 8 FCt3 CD 203 REY. 1 ASNT INT TC !A Ve berety certify that the ateve data is correct as contained la the re:ords of Southern Bolt and Fastener Corp, t!EF). All itees- f urnished on this order are in full esspliance with all specificatices and Centract/ Purchase Order rewiresents. The test reports provided represort the actual attrihtes of the items f urnishes on the ecatract and indicate full ecepliance eith all applicable spe:llications and contract rewiresents. Ne additional certificatien is laplied or warranted.
'The re:ctding of f alse, fictitlegs er fraudulent statements er entries ca this docusent say be punished as a felony under Federal Statutes includir Federal La., Title 10, Chapter 47 '
[ '(THOVitED REPRESENTATIVE page 2 of 2 F (N-) LAAGE BOLTS &NUTE WM*j STAINLESS & ALLOY
-1
WESTINGHOUSE - NES , (100% Hardne?S ReDOft) P.O. (8 MN-67773-D *
. SBF S/O' "179-010 40 59 78 97 116 135 ~ 31 30 30 22 41 60 32 35 32,5 34 -
79 pg 117 136 33,5 33 32 ses 33 35 32-23 42 61 80 99 118 137 34 35 31 '3 1 3e 35 35 24 43 62 81 100 119 138 . . 33 34 30 365 35 34 33 25 44 63 82 101 120 139 32,5 34- 34 34 32. 36 32,5 26 45 64 83 102 121 140 33 31 30 35 34 27 46 65 33,5 34 84 103 122 141 32 3 3Y 28 - 47 66 3/ 34,5 35 3V 85 104 123 _ 142 31 33 30 34 30 31 31 29_ 48 67 86 105 124 143 31 32 3 V,5 33 34 33 3 u- 49 . 68 87 106 125 144
- 32. 3# ' 33 365 35 34 36 31 50 69 88 107 126 145 31 3 /,5 3/ 33,5 34 32.
32 51 70 89 108 3# ! 127 146 32 35 34 33 33 34 i 33 52 71 35 90 109 128 147 ' 30 al 3/ 33,5 3
'5 35 34 i
34 53 72 91 110 129 148 35 33 "3M 32 35 32. 32,5 35 54 73 92 111 130 35 33,5 3'S 34 35 3 2. 36 55 74 93 112 131 33 32,5 3 2. 32. 35 34 37 56 75 94 113 132
~ 33 32. 3# 33 30 34 57 76 95 114 133
- 2. 31,5 33 3e 33 39
, 39 56 77 96 115 134 33 33 34,5 32, 33 33 -
- - -- 88.u u ' o i 4 0 4.) n ts u m u niut wo, p gigt l
. w . ....w.-
j
, e --4 004441 0 19967 .i u . 1 313 10950
.. 7..19/ 87. . . . . . . . . . .
lI 1
..m .,
12-29050-31301 ) 12 t g
' 5 01 'N'23 2 _12 ' _031310950 CERTIFICATE OF TESTS YT,g;giyg_3/4_1o a n ;
avu a siEnr5WPTV'37ETTEruvo r
-. dvuTtLxN 15v b1 a. z asl utt hu uv n k' ; 1
*PO BOX 7196 310 NONTCOMBRT SilREVEPORT LA 71137 SILREVEPORT LA 71107 j
. ' CORRECTED COPY
... ,...... . ... .m ., _ ......
- i f... _ ..06/13/87 6.],(t,'./x'JG4"4/"q:../t.'t.r,'.y;"1:!'" w.. , .sd.n ! w.0J"!:!T;l!!g
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M> eidNMUh ae> st NMae m ve NMM> m em e ~M i
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F.. .. m= . . . . . . . . - . . . _ _ __ l' "' ea
, i
. . . . , __ j Hv1 vbbuv d1LLL tia n s ALLv1 Q.A 9 WEE.3-ASTM A-193-85A GRD-B7 ASMC D & PVC D ' U
- g m 'gyy ,
SECT III SUBSECT NB2300-NB2580-NCA380 ) % w df EF-AISI-4140 FINE GRAIN VACUUM CARDON gy: {* DEOXIDIZED AIRCRAFT Q QUENCH & TEMP S y ) STRAICHT IMPACT TEST IMPACT TEST QUAL SfftDDR I ASSURANCE DOC 16,46C ,t I6 RDS 2-1/8 x 18/20 FT 01 , D Except ultrasonic requirement of NB2555 fly . !
- 3 AUG y y y R-n'9 : y 9 5BF HEAT CODE 9
- 8031931 "f500 1. YRS 'O TC l'f0 0"'~5 HY5
. . e ..
"".' ~ ""' ",'"*
s "M s. + - ,, 0.41C 00.80 .005 .01E 0.2! 0.lt 00.15 01.01 0.2: 0.00C 0l! , 2 w u . . .. .. o I']\ tr ,. c.,. - .
\
b 5'E5S 51 b b $ $ $ 0 N O. . D. . .bMN NNM NN
""'" ....EEb 5'(
r"'
. .... .. .- ....e. * *
SlRIC2 AMS23010.02/.01 ,
.a A B C D l
.a ... m v ,,.. v.. ... ,m. n.. Material manuf actured to ASME B & PVC code of
- 1986 Edition Dated July 1.1986 & Addenda Dec. 31
. 1986.
i' HEAT CODE = 911 l THIS MATERIAL WAS PRODDCED IN ACCORDANCE WITil LTV QUALITY ASSUPANCR ' PROGRAM, REVISION ( 5, DAIED 2/14/87. ~ . . . . l 2CA IVM. CAD { MATERIAL WAS NOT EXPOSED TO HERCURY OR ANY METAL ALLOY THAT IS LIQUID AT AK5IENT TEMPERAI1)RE DURING FROCESSING OR WHILE IN OUR . POSSESSION.
; = ,~.r - ...
-- ::,- wir - .,
.-..... _ . - .... m
! 'SOUlHERN BOU h5d[C0{ 4 ?n C 65.C BHF 285/302 g B T. S.
40 37 46 MILS 7HIS 00CL Y.ENIMl0N HAS RECEIVEC LAT. EXP. Q. A. REVIEJ AND HAS BEE i YERIME )
% SHEAR 50 50 50 A?g. 'W BY ff.2m&M). V ~
k h$ S ~/7- &) '
~
M CINDC , 7 ~ (- INDUSTRIAL NDT COMPANY, INC. '. y ULTRASONIC EXAMINATION REPORT Customers ben /d M Furchase Orderf M O/ I Job f T/ 79-Q'O ' Ultrasonic Unit #/3 # # I Calibration Date / CMP 2f 2 Transducer Type M Co4 4 Frequency S* . Size J Y Calibration Standards # 5 N #4//r M M DAC / DEC Linear Scale Presentation (CFa Ref erence Level Cain Settingd db /,2. Scan Level Cain Setting /# db /# PARTf.dfh/6" Inspection Date ( "/'f- D LOTf_W79-O'O Technician b/)ffO4v Level I HEATf_ro9113e/pq,fg,, Number Inspected:_ /d 9 Number Accepted /4 9 ! Number with Reportable Indications: A### / Number with Rejectable Indications: A/J#r" . Coenents: p o..r s r e u,,2: cp yg e ._ p s g A ,,, ,, l 4 1 l
"I SON *2 FASTENER C0i(P. l W15 DOOut.tENTATION HAS RECENED . ,
Q. A. RE6Eit AND HAS BEEN VERIFIED gy [h ON g /r- / 7 .
~
Technician's Signature / k Level __ /-
*!$h u,e Date ///v
' ' ' ~
( 44E l
.: . j 4
l
COUTHORN COLT
& fr A st E N E 84 COADO A ATeQN POsoxPtw stevo%tGOMfh fitf PHONE AAEA t31ss rt utsi sw.troa r. tous,tsa rt tJr re w j . '- CERTIF!CATE OF TEST
- Date: 9/11/87 Report a15207 invoice 824018 CU3TOMER: Westinghouse - NES CUSTOMER P.O. NN-67773-D ITEM: 001 CUSTOMER PART NO. SBF S/0: 4179-020 TRACE: E 7B 15207 2D33326-3 H01 DESCRIPTION: 1 7/8"-8UN-2B (Mod) Closure Nut QTY: 128 MN67773D + S/N'
.-.. - ~ _ . - - . . .
SPECIFICATIUNS AND CODES ASME SA-194 GR. 7 ASME Section !!!. Subsection NB. 1971 Edition No Addenda , 10CFR21 applies Dwg 2D33326-3 H01
= . . .
. - . ~ . - - - - . .- -..
S.0MRRE : H LN O . _1 C_ _ tin i P_ : S : Si : Ni I ,,SI : No : Fe : Cu : Al : Tt: 55872 SBF Heat Code: R1296B Product analysis verifying chemical composition per NCA.3867.4(e) reported on ottachments. MECHANICAL PROPERTIES (Performed after Heat Treatment) TENSILE : YlELD .2% ELONG.: R/A ; HARDNESS : CHARPY V-NOTCH TEST TEMP: +32F
- _QEFSET KS1 %__ 0 j!" : %_ : Re : FT kB_S ! MIL LAT : _ % 5 FiE A R :
. _X S l _ _
/'N135 118 20 58.0 27-31 61-61-60 39-38-37 100-100-100 (6) ( ) Results 30 Re - Satisfactory. ( d Hr. hardness test performed. Hoat Treatment performed by SBF: Heat Lot No. 163/87. Austenitized 0 1600F for 2 Hrs. 5 Min. Polymer Quenched. Tempered 0 1100F for 2 Hrs. 45 Min. Air Cooled. Items UT examined in accordance with SA-614 (1983 Edition through Summer 1985 Addenda) and found acceptable. (see attached INDT report). Items MT examined in accordance with 420.026 Rev.0 w/ Add. 2 Rev. 2 and found Deceptable. Items visually and dimensionally examined 100% and found acceptable. Items referenced herein receive no known Mercury contamination during SBF processing and handling through time of shipment, items furnished under our Q.A. Program as approved by Westinghouse Electric Corp. Tne material is being supp!!ed in accordance with our Quality System certificate (Manufacturer) ASME Certificate No. QSC-516. expires December 26, 1989.
*S/Ns shipped: 021 -
146 e^THOYIZED REPRESENT AT I VE page 1 of 2
,) F -- - i f LAAGE BOLTS & NUTE WKj STAINLEgg E ALLg3y n
COUTHO AN BOLT
& P ASTENE A COADOAATION Po eon rise seawwrcouter trLimnoNr AngA(3,sipptw;5t 5*ht*0A? tours.asa 7:#37. ries N T 1, '
v
) L 1 -
CERTIFICATE OF TEST Date: 9/11/87 Report a15207 invoice s24010 CUSTOMER: Westinghouse -NES CUSTOMER P.O. NN-67773-D ITEM: 001 CUSTOMER P ART NO. SBF S/0: 4179-020 TRACE: 1 7B 15207 2D33326-3 HO1 DESCRIPTION: 1 7/8"-8UN-2B (Mod) Closure Nut QTY: 128 MN67773D + S/N* R_EP_QRT OF N O N D E S T R UCT,l_VJ;__lE S_T_(.1!G WET MAGNETIC PARTICLE TEST: FIXI;NRI USED: 420.026 Rev. O w/ Add. 2 Rev. 2 SCCFE OF EI A'!!NATICN: 100% Aecessibie Surfaces ACCEPTAECE STAnIAIC: see procedure _ , _A : _X_CC AEFERE T3h5: 11000' CitCULAR AVI: d200' DE".A@ttlIID: .J _YIS N PAlflCLES USD:14- A Ma gna g I o EUIPEDf:H-720 Ma g na f I um O'hEI: Bath Concentration 4 Batch e66E040 *Ple Gage x RESULTS OF INSPECTION: 128 pieces examined and found acceptable T
)
dCHNICIAN LDEL PIR_Wu W LL1Le_rn s_ _LIVEL__t ! CElflFlC4 fib II?llAtlCN CATE_, . CERTIFIC4flCh LIPilES 10 8 6_ FCA". CD 203 LIf. 1 - A5kT 5%f TC IA ke herely certify that the above data is correct as contained la the re:erds of Sevthern hit and Fastener Corp. (!ET). All itees furnished ca this order are le full cespliance with all speelficatters and Contract / Purchase Crder requiresents. The test reports provided represent the actual attributes of the iteas furnished en the contract and indicate f ull ecspliante with all applicable spe:lfications and centract requireastts. ha additienal certifiestion is (splied er narranted.
'The ree:rdieg of f alse, fictitious er frauhlent statements or entries en this decaent say be paishd as a felsey under Federal Statutes '
f aelvdirg Federal Law, Title 10 Cr. apter 47.' . 1
/
HOR BED REPRESENTATIVE page 2 of 2 l l V-- 1 l LAAGE BOLTS E NUTE p*,*Q* NTAINLEBB E ALLOY ; 1 1 , l
SBF HEAT ' CODE we f ... . Newton Engineering - - ' O %] Metallurgical Services,Inc. September 11, 1987
- Southern Bolt and Fastener P.O. No. 20187 :
P. O. Box 7196
. Shreveport, La. 71137-7196 M S. No.
Attn: Mr. Jim Williams 7-2689
/
W Heat 855872 R1296B R1296C R1296D R1296E R1296F RI.296G Carbon, t 0.42 0.43 0.42 0.42 0.42 0.42 Silicon, t 0.24 0.24 0.24 0.24 0.24 0.24 Hanganese, t 0.87 0.88 0.89 0.89 0.88 0.87 Phosphorus, t 0.009 0.008 0.000 0.008 0.009 0.000 Sulphur, t 0.016 0.016 0.016 0.017 0.016 0.016 Chormium, t 0.95 0.94 0.95 0.96 0.95 0.95 0.18 Molybdenttm, t 0.18 0.18 0.18 0.18 0.18 Standards used are traceable to NBS and other recognized agencies. ' EO#ERN M53 [ASTENER CORP. - THIS DOCUMENTAT10N HAS RECEb 9' A REYllW AND HAS gggy ygg;7;gg' BY - f4 ng L - V~~ /Y-/"7 -. [ \ By QA !
'2 West thh Strcet P.O. Box 39030 Birmingham.' Alabama 35.M (205)766 5525 ' '
. h.O .
C D - INDUSTRIAL NDT COMPANY. INC. . ULTRASONIC EXhi1HATION REPORT . Customer .Sm A m Ef4 + bber 8 Furchase orderf 20t 75~ Job i ~174 % - Ultrasonic Unit Se FR trklICalibration Date 7 29 P7 l Transducer Type &nisanic. Trequener J-QT*n1Ns. Site .f" l Calibration Standards -Gf ' Pa ne DAC #.s/n DEC u/a Linear Scale' Presentation /* ' Reference Level Cain Setting db V/2 l Scan Level Cain seteing db S"J1 i PART f 4//*19 -o,to Inspection Date 9 8/ f? i LOT i -
, Technician 7 cue.st it). 66u o Le ve i _ .E I
HEAT i fff*?2 41316
- i Number Inspected: 8V(, I Humber Accepted: J V I.,
Number with Reportable Indications
-o- .
Number with Rejectable Indications! o-Comnentst. rLh am
,m;w h4 L _ C P 42o. ofz. A'ev o
- f
$0ViritHN DCLI and FASTENER CORP.
- . J I.v.v.'..t.hhisud MA4 McLthtU
( ... ...t.6 4 Aii0 HA3 BEEN YERIFIED BY fM ON 9-/c 97 . Technician's Signature e/ #/. 41A,M Level ~2I Date 9 y-P) Supervisor . Date s .
COUTHERNa BOLT o naeinua n no.cox ruw asovomoouter rusm anta tsseo rtsats s smtwront, Loursw re ssr rsu
- l August 14, 1987 I l
hDN-DESTRUCTIVJ_IESTING CERJIFICATION l l This is to certify that the individuals listed are certified l in the NDT disciplines at the levels shown. This , certification meets the requirements of ASNT-TC-1A/ MIL-STD- l 2132 and expires as indicated. l tam _E ti_SilELLN_E l I, EXE L,. EX_PIRATION WALTER E*DANVER JR. Visual Examination 8-14-88 MT lil 8-8-88 PT !!! 8-8-88 VT III 1-3-89 i MT (WET) Examiner 1-15-09 PT (V & VI) Examiner 1-15-89 UT 111 , 1-22-90 WILLIE WILLIAMS Visual Examination 9-11-88 MT 11 10-7-88 PT 11 12-23-88
, VT 11 1-3-89 MT (WET) Inspector 5-15-89 ROBERT BROWN Visual Examination 9-11-88 PT I 8-8*89 DENNIS ENGLISH Visual Examination 5-29-88 l MT 11 8-14-90 l PT il 8-14-90 l VT 11 8-14-90 j ALLAN BROADBENT Visual Examination 8-14-88 MT 11 8-14-90 PT !! 8-1A-90 VT !! 8-14-90 U
d$4 E. A. Kelly { ' Q. A. Representative
-/ .
O LARGE BOLTS E NUTS p. *=j STAINLESS E ALLOY
COUTHERN BOLT C P ASTENER CO A AOA ATION Po 804 Ff 96 3 f 0 6*oev7GOMEn r Trtresoeg AngA(3,g;ppsatsi snegggpont, tot:3,4V Ft 837 7196 / \ Southern Bolt & Fastener Special long term storage instructions Part Description - Primary Manway Stud and Nut ASME SA-193 Gr. B7 (Stud)
- ASME SA-194 Gr. 7 (Nut) 1.0 SC.0PX:
1.1 Recommended storage environments contained herein are for long term storage (exceeding six months) only. These ars manufacturer recommended procedures and will not supersede customer specifications. 2.O S T D .R.A G E 1 LV l R O M EL LT.s 2.1 Environment shall be maintained to the extent necessary to preclude deterioration of the T-32 e- ett used for rust retardation. The service [s temperature allowed is 33' min to 120' max F. ( 2.2 If the temperature falls below or above the stated values, a 100% inspection of parts will be necessary to determine detrimental effects. No more than 48 hours elapsed time siall be allowed betwee'n the temperature excursion beyond tolerance and completion of the inspection. Formation of rust or other corrosion will be cause for . cleaning and recoating. Temperature excursions for less than a one hour period with no more than four per twenty four hout period shall be acceptable. 3.0 CLE AN !!!G . PACKAGING AND PRESERVATION: 3.1 Cleaning and packaging shall be accomplished per Westinghouse process specification (PS) 292722 Class D. 3.2 Preservation requirements may be met by inspecting I parts each 30 days and reapplying T-32 Citco Pacemaker oil as necessary. For extended storage, renailing of the box lids or closing the container to final shipping configuration is unnecessary.
's Mark containers to assure Warehouse personnel are aware of the necessity to complete the packaging - requirements prior to shipments. ;
I MO REE ' LAAGE BOLTS & NUTS [M9 WTAINLESS & ALLOY
SOUTHEAN BOLT S F AsisNs R CCRPORAisON PO OOx tsN 310 MONTGOMtR Y ttLEM AMEA(310lltt etSt WE\tPORT. LCusts%A tt t37 !IN
- ISB]
4.O N A XMUIL S_HELLL IJE : 4.1 Shelf life is considered to be indefinite: , however, parts must be 100% visually inspected and documented to assure serviceability each 30 days. i .
,A" -
A L N . ROADB NT, CMtgT MANAGER OF QUALITY j 4 i i - 1 i I l 4 l i f em - l i LAAGE BOLTB & NUTE LO., *,"JJ WTAINLESS & ALLOY
, Nuclear .
Services w- Integration . CUALITY RELEASE - Division , on_ 1M10 ntyg _ . . . , . . .. +=.u. -
... e 67775 GAcs .......
A%o *w.._Co w a /874 E?$ aa v. / Al'c.o 00 / ~ 00/ B.u..N . .. . 7b ~ 6S*/66 u. 2 76 /28 mk bfoAM / o o /-. Co x!/A eo e ne a ,ea %o A. . . . . . , <. . . ,C /reu 00/ - /874E74. 602 # NO3 - /2A,n.s s <ca A)o s* A) 's
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7 l R ADFORM TOOL COMPANY, INC. P.O. BOX 150 + 630 FWTH AVENUE e E As7 f4cKEESPORT. PA. 15035 TE LE PHON E: 412/824 3122. TWX: 710 797 3676 , l I CERTIFICATE OF CONFORMITY P.O.No. i Dates SEPTEMBER 10,1987 MN-67775-D ; This is to certify that the material shipped 'on subject order is '
- in conformance with your material requirements per your drawings i
and/or purchase order requirements plus the following documents: C/N ll , o Temperature at time of inspection 70 F
- 1. Staterial Spec. ASTM-B-166 IECONELL 600
- 2. Heat No._ NX 5322 & 73593
- 3. Dwg.Rev., Item, & Qty. 1876E96 CO2 & H03 REV 1 128 PCS {
- 4. Serial No. N/A
- 5. Inspection Req. 1004 RADFORM TOOL COMPANY
- 6. U.T. - L.P. or M.P. Spec.
- 7. Plating Spec. N/A
- 8. Heat Treating Spec. N/A 4
l '9 . Welding Spec. N/A
- 10. Magnetic Check._ PARTS ARE NON-MACNETIC _
- 11. Destructive Test. N/A w
- 12. Clean spec. COOD COMMERCIAL
- 13. Packaging Spec. COOD COMMERCIAL l 14. Manufacturing Req. .
N/A
- 15. Contamination Req._._ PARTS ARE MERCURY PREE RADFO TOOL COMPANY k
- Quality Control Manager 1
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HEAT / LOT NX5322122 - 10 COILS - ' l MARK ITEM 05-330-00035 - . VISUAL AND DIMENSIONhL EXAMINATION SATISFACTORY. . NATERIAL. WHEN SMIPPED, IS FREE FROM CONTAMINATION BY hERCURY. PADIUM. ALPHA SC'.nRCL. AND LOW MEs. TING ELEMENTS. l THE RECORDING OF FALSE. FICTITIDUS OR FRAUDUI. INT ST ATEMENTS OR ENTRIES ON Tit'S DC00.**.c'NT MAY BE PUNISHED l AS A FELONY UNDER F8E8$RAL ST ATUTES INC8~ *' DING FEt,ii'.1AL LAt.h TII'LE 18. CHAPTEF. 47. '
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Williams &'Co. Date : . . . . A47U S.t. 6. . .(9.Q 7. . . . . . _901 Pennsylvania Ave.' _ ATT2!! TION: Sandi _ Pittsburg, PA 15233 Gcnticrnen: ( j we certify that the inaterial listed belcw and shipped. . .Jp.13.7,. .U S.7. . . . . on your order tb. 75 Alh 99. .S;? A. , our order 16. . . A15 3 D. . . . . . . . . . . . conferms to the chemical cxrposition and mechanical proportices for the rtx;u.irenents of the i
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........4'.15.5.665.J............................................................
@TI'R.IAL FtMIS1ED C1721ICAL CQtPOSITICII m\
ITot tc. : int tayttI:ct: 73593
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ALICY ??C: I:300:fCL 600 C: .00G SIT.E .
.1975" Cr: 16.35 -
Ni 74.15 Pn: .32 WMS. fa CO FCrilA!!ICAL PRCPIRTICS Sis .30 QA MMD re: 7.85
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':he chenical analysis and nechanical tests reported are correct as contained in the records of the carporation. ,
Material as shipped fr:m tbrthagten is free fr:rn 21ercury Contamination. Ill MCSS 1.HIRICF, I have hereunto set rny hand NORTHAMPTON MANUFACTURING CORP. O this...............d.y of ............. 19..... j g g j g 3 Signed and sworn to before me this_,_ of 19 (~ rER" # 3 '/u t IMPORTANT TEST REP 0f , 1
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OF RECORDED INDICATIONS 1987 SKETCH METHOD / ITEM IDENTIFICATION Ol POSIT ON REFERENCE votuuErmic sumPAcE visual EVALUATION accapr com mact uoNiTom REFERENCE APR2-2110 4-16 2-3-5 IER-001 1
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d&[>0 id49 C 11- 7-?) VATE SEE REFERENCED IER FOR UTILITY OATE FO AM 48494 A
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Dror inform tioa oner O rurther investisation
% Not surfte induced l O une.r investination O uore preper. tion a. vir.a O ruture u.aitorins !
O oin- O sue i. niety t smin.iion l QPrior tulitine Date D.te l Contractor a.a #' e Represent hl ' trvef ichtlr7 bpdgedBdu N edou-- - iolzi/e7 j ( Part lll - APCO NDE INSPECTOR A$SEdsMENT l I O a. paw ena a =. min. EQ prior t=istino oin.
% inoication Accept.bl. O suposementary t= amin tion .
O uenitoria, a.commeae.o O o.iisa t eiustion Coo. R.ierences: 191U A.sm e .2. r-* . TT. Y toA. 'Ltu a 2. n 'TT < W tw E,~ 7'- S 3 4. R e.ses: T wn-n. m w ,,! - 2, 0w - _. L a. _ ,L. w _ _ _ _s . - . . _ 1,st. AsmgM
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12x w n '~ r-~. . F HDE Inspector * /Cartlfication Level U D.te " 8 . 7,m _ h< h W /c - 2.'2_ - 9 7 Part IV - APCO EVALUATION Cause of indic.teon: L/aafam. k hokaf oS&w prolaal durina Edridhn. 1%ic wdd is &akd dufside '& scon. d&t ' (%sf and fit Aumkl % rams ad hue will M k m>ad as wrt of luk TMerhaus (Willk 4Wd fam faA 1) amd kirhkil Nfsnm). Action Required To/Corre<t Indication? jf i '
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a A WESTINGHOUSE NUCLEAR SERVICE DIVISION 001 INSPECTION SERVICES EXAMINATION PERSONNEL
/~3 'N] puur J. M. FARLEY UN II YEAR ISO 7 EXAMINER uti rir v/T urr R/T EYE 4/2/87 I I I I
. ACKERMAN,H.M. II CAMPBELL, J.B. 1/9/87 II II III II CASSAT,R.S. 5/5/87 I II I I FUNYAK,J. D. 2/19/87 II II II II HUGHES,'R.W. 7/29/87 II T T KIEHL, C.W. 8/11/87 I I II I K0VALLO, P.J. 2/6/87 II II I II MORINI, G.A. 1/8/87 II II II II SABO, S.A. II 1/20/87 II II II SMITH,M.E. 1/8/87 II II II II O - O F49244
l-NSID WESTINGHOUSE ELECTRIC CORPORATION .Q$2 NUCLEAR SERVICES INTEGRATION DIVISION S, NDE CERTIFICATION RECORD SS#: 186-30-0086 a . eman ASME BPVC 111 ASME BPVC XI
- 1. NAME:
- 2. LEVEL (S) OF CERTIFICATION:
Method Level Recert. Date Expiration Date Original Cert. Date PT-I N/A 6/11/89 6/12/86 MT-I N/A 6/11/89 6/12/86 VT-1/2/3/4-1 N/A 6/11/89 6/12/86 UT-Trainee N/A 6/12/86 (Tested)
- 3. EDUCATION & EXPERIENCE:
Donora Senior Hi9h School - Graduated 1955. Experience to certification date in each method: PT 300 hrs., MT 200 hrs., VT 500 hrs.
- 4. STATEMENT OF TRAINING:
Westinghouse NDE TI: PT 40 hrs. - 11/15/85 O MT 40 hrs. - 9/20/85 v VT 40 hrs. - 9/13/85 XA iNETIO C RD ATTACHED: Yes X No
- 5. PHYS
- 6. ACTUAL GRADE (S) AND PERCENTILE WEIGHTS FOR EXAMINATIONS: "
Method General X Wt. Specific X Wt. Practical x wt. N e' "Nal'e PT 85 x .3 95 x .3 97 x .4 92.8 6/10/86 MT 90 x .3 90 x .3 95 x .4 92.0 _ 6/11/96 VT-1/2/3/4 82 x 1/3 82.6 x 1/3 90 x 1/3 84.8 6/12/86 UT 92.5 x .3__ 100 x .3 100 x .4 97.8 6/12/86
- 7. CERTIFICATION LIMITATION:
None. Certification record re-issued 9/30/87 to correct VT examination date. O Certified V __ Q'9* AO& obe L...i m t. miw Nsiosur u.isu
l l l
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Form PD0541 (183) 003 l m NDE CERTIFICATION RECORD i l)
,v u. .
u...m : H. M. Ackennan UT/ Level I
- a. .... . ...,.. ..:
- 1) Graduated Donora Senior HS.1955 . . . . . . .
- 2) Performed UT in trainee capacity since 6/86 . . . . . _
.e si. .. . , 2, ... . :
- 1) Westinghouse NDE TI. 80 hours training.in UT . .
xwth/ Practical daYEi
/ EU \/ _ General xwr.\/ Spegn.9 fi xwrN. s 100 x .3 100 x .4 97.7 6/12/86 92.5 x .3 i c.... .... .. .....:
None. . _ . _ .
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- 2/13/87 6/12/89 c . . . .. . . . :
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s_ . C O2 l I s t n n e e e e nne y e a en eb r g A x r o S 26 a niivt ue E i t i ic e s s a t e o e se sn h er e s e N w R5 l F a e . E6 p e. ui n nHt ET F l O c s P E M E ohee nm. p . . E i .i u o Do Ht n M A N M At oEE e1 s n 2 3 r a D m a cn e . a i' , j ' i;8 " : !
E 'NSID ] '} l WESTINGHOUSE ELECTRIC CORPORATION r NUCLEAR SERVICES INTEGRATION DIVISION 005 NDE CERTIFICATION RECORD J. B. Campbell X ASME BPVC XI
- 1. NAME: SSN 207-24-3162 ASME BPVC 111
- 2. LEVEL (S) OF CERTIFICATION:
Recert. Date Eg ation Date Original Cert. Date , Method. Level UT-II N/A 11-15-87 1-2-85
- 3. EDUCATION & EXPERIENCE:
Graduated Edgewood H.S., 1949 More than 20 years NDE experience on UT, PT, MT, RT & VT methods.
- 4. STATEMENT OF TRAINING:
W NDETI UT Training, 10-31-84, 80 hours. Q 5 PHYSICAL EXAMINATION RECORD ATTACHED: Yes X No
- 6. ACTUAL GRADE (S) AND PERCENTILE WEIGHTS FOR EXAMINATIONS:
Method General x we Specific x wt. Practical X wt. Ir [e' "Na7e" " UT 92.5 x .4 92 x .3 87 x .3 90% 11-20-84 a
- 7. CERTIFICATION LIMITATION: None l
l O (W CL- s l Certified By: ] Not Levei m teamine, Nsio non 11.as sa
l l T NSID WESTINGHOUSE ELECTRIC CORPORATION l 006 l O ' NUCLEAR SERVICES INTEGRATION DIVISION
.. NDE CERTIFICATlDN RECORD l
l J. B. Campbell l
~
- 1. NAME- . AIME BPVC ll1 A3ME BPVC XI l 2. LEVEttS) OF CERTIFICATION:
l l .. Method Level Recert. Dete Expiretion Date Original Cert. Dete i
"'~
l . . ' ' ,. ' . MT-II 3-7-85 2-28-88 10-9-80 ' t , . . . . . l l
*il'.3..EDUCATJON & EXPER+ENCE:
., ; Graduated Edgewood M.S., 1949
,. . More ,than 20 years ,EE experivare se Erf. PT.. MT and VT.
l 1
- 4. STATEMENT OF TR AININ G:
E 8ettis Atomic lab'. 120-tinars vn. WT. WT, FT. UT,1956
. M Bettis Attmric 1.ab. ,160 nours, RT, MT FT. UT 1960 E APD,160 hours, PT, MT, PT,1967.
{ X
- 5. PHYS 1 CAL EXAMINATION RECORD ATTACHED: Yes No
\
~ 6. ACTUAL GRADE (S) AND PERCENTILE WElGHTS FOR EXAMINATIONS: '
Comp. Examination ! Method Gen. X wt. $Dec. X wt , fy _ _ X wt. Grade Date l MT 75 x .4 80 at .3 38 x .3 83.4% 2-28/3-7-85
. ,a -
. 3. : ei s. .
... e.. : - - -
, 7.' CERTIFICATION LIMITATION:
Nne . l l 1 l O Certified By-
%W
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. m snem.n.r o sio sost as.as sa
e WESTINGHOUSE ELECTRIC CORPORATION 007 NUCLEAR SERVICES. INTEGRATION DIVISION ,
' l NDE CERTIFICATION RECORD l
' NAME:J.E.Camobell. SSN 207-24-3162 ASME SPVC ,1,11 X ASME 8PVC XI
. 2. LEVI 1(5) DF CIYTIFICATION:
Method-Level Recert. Date ,, Exoiration Date ,, , ,0riainal Cert. Da_te PT-11 , 5/16/85 5/16/88 ,,,_ 1/3/68
,~ ...,RT-11 , , ,
5/17/85 , 2 , 5/17/88 ,,1/3/68 1
)
, 3. . EDUCATION & EXPERIENCE:
Graduated Edgewood H.S. ,1949.
. Merrthan to years.testinnans EDf. experlente 'm PI,'ET, UT, NT, .and VT.
- 4. '5TATEMENT OF TRAINIMS:
q g M Bettis Atomic Lab, 320 hrs. , RT, PT, MT, & UT,1956. y Bettis Atomic Lab,160 hrs., RT, PT, MT. ,& UT,1960. N ' y APT,160 hrs., RT, PT, & MT,1967. , 5.*~ PHYSICAL EKAMINATION REIORD'. ATTACHED: ,yes K ,No _ .
- 5. ACTUAL ERADE(5) AND.PEYtIITILE WEIENI3 FDR TRAMINATIONS:
temp. . Examination -..' Mfttied ,, General u Wt. .. Specific x Wt. Prartical u Wt. Grade . Date FT 92.5% x .4 ,,84%x .*3 ,90% x .3 89.2% 5/16/85 ,
,86.5%__ 5/17/85 ,_
RT 72.5% x .4 96% x .3 ,,95% x .3
- 7. CERTIFICATION LIMITATION: NONE i
l 1 Certified By: C
'J .
i l 180 3037 13 3083
hNSID WESTINGHOUSE ELECTRIC CORPORATION 008 [m NUCLEAR SERVICES INTEGRATION DIVISION
\--} NDE C5RTIFICATION RECORD SSf: 207-24-3162 John Campbell ASME BPVC lli X ASME BPVC XI
- 1. NAME:
- 2. LEVEL (S) OF CERTIFICATION:
Recert. Date Expiration Date Original Cert. Date Method. Level VT-1/2/3/4-III 4/4/86 4/4/89 4/15/83
- 3. EDUCATION & EXPERIENCE:
Graduated Edgewood H.S.,1949. Certified Level II in RT, PT,11T since 1968; Level II in VT since 1980. Approximately 23 years experience in NDE methods.
- 4. STATEMENT OF TRAINING:
W NSD Visual Training, 4 hours, 7/77. m . ., EPRI Level III Visual Examination Training, 40 hours, 7/23/82. h NDE Technical Institute, 8 hours, Level III Training Course, 4/4/86.
}
- 5. PHYSICAL EXAMINATION RECORD ATTACHED: Yes _ No X
- 6. ACTUAL GRADE (S) AND PERCENTILE WEIGHTS FOR EXAMINATIONS:
- Method Basic X wt, Soecificx wt. Hethod x wt. Ie[e' t, f I
VT 1,2,3,4 88.3 x .4 85.7 x .2 82.5 x .4 05.4 4/3/8G l
- 7. CERTIFICATION LIMITATION: l Certification record re-issued 9/29/87 to correct wt. factors and l examination date.
Certified By: - 1: y io u ...o n c.. . MtO 10371115 83
l D ' 5 - l } l l I NDE PERSONNELVISION TEST REPORT FORM 66262 E WESTINGHOUSE ELECTRIC CORPORATION WATER REACTOR DIVISeONS 955MDB peAME SOOAL SECuntTY MO. DATE OF BeR)H John B. Campbell 207-24-3162 9/29/31
- AM apphcents for NDE Cer:Hication are required to pees a vision test w6 sewn shirey days ei original eartification ensline. Personnel are resuired se he an annues vielen esuninseien.
j Emasninseien shes he eenducted by @ tdedeces Deperenient er asualified persons deelyissed by senw. Emanunesien eenducted shall include the follousag: I 1. Neeural er eerroceed near distenes acuity in et least one eye audi shot the applicent is capelde of. reeding J11 otters en the stended Jaeger's I seat type diert ser near vision.or egulveient. The abluty se perceive an Orshe Reest Nuenber Ten (100 test poseern or Tiennes Sne41on Test Eguivalents of 14/14 shen also be occupe=M= . 2. The ablesey se distinesish between celers adien required by work IPT, RAT. UT, etc.) ! 3. For far eSesence scaley. e .._- _ We level of 20/30 Snemen Irecisen er equivoient, tested at twerwy (20lleet tier viemel
- eseans easyt I
- oats Or ExAnsueAym j - 7_ f 7 i
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l' ! ] , ; h NSID [ , p WESTINGHOUSE ELECTRIC CORPORATION Q10 NUCLEAR SERVICES INTEGRATION DIVISION - { NDE CERTIFICATION RECORD ., SSf: 189-44-9111
- 1. NAME:
obed S. Cassat ASME BPVC 111 ASME BPVC XI
/
- 2. LEVELIS) OF CERTIFICATION: j_
, /
7 Method Level Recert Date Expiration Date Orig!r,at Co1rD1D PT-I N/A 6/11/89 6/12/86 MT-1 N/A 6/11/89 6/12/05 VT-1/2/3/4-I N/A 6/11/89 6/12/86 UT Trainee N/A N/A _ 6/12/86 (Tested)
- 3. EDUCATION & EXPERIENCE:
Graduated Johnstown Senior High School. Experience to certification date in each method: PT 200 hrs., MT 500 hrs., VT 3000 hrs.
~ '
- 4. STATEMENT OF TRAINING: ;
Westinghouse NDE TI: PT 5/2/86, 40 hrs. MT 10/25/85, 40 hrs. S VT 3/7/86, 40 hrs. i UT 1/19/06, 80 hrs. , Yes X No
- 5. PHYSICAL EXAMINATION RECORD ATTACHED:
- 6. ACTUAL GRADE (S) AND PERCENTILE WEIGHTS FOR EXAMINATIONS:
Comp. Examinatica Method General X Wt Specific x wi.,Practica1 X wt. Grede Date PT 90 x .3 95 x .3 96 x .4 93.9 6/10/86 lit 95 x .3 100 x .3 100 x .4 98.5 6/11/96 VT-1/2/3/4 83 x 1/3 79 x 1/3 97 x 1/3 86.3 6/12/96 UT 90 x .3 100 x .3 98 x .4 96.2 6/12/86 -
- 7. CERTIFICATION LIMITATION:
None. Certification .ccord re-issued 9/30/87 to correct VT examination date. 4 , 1 O - l Cenaie _ l
,,,,,,,m,,,,,,,,,,,
l i
l l Westinghaus. r .,. ,oos" " 011 l G
\ I NDE CERTIFICATION RECORD l l
u.,n a u... lJ n.n. . R. S. Cas . UT/ Level I , l t owe.ii.n & E em 7 l
- 1) Graduath. Greater Johnstown HS,1969 l
- 2) Performed UT in Trainee capacity since 6/86 si. . .. 1,... ..
- 1) Westinghouse NDE TI, 80 hours training in UT xwth/ Practical xwr.\
[ oftY \ / General xwv.\/ Specific onYo"i 6/12/86 90 x .3 100 x .3 98 x .4 96.2 c..........nu...... . None i e..... l (
- .........,o...
c . . . . . .. . .. . m xu o . . . , 7/22/87 6/12/89
/
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@?;",7a'Anai 012 jd HDE CERTIFICATION RECORD q. ,
W o., ...r?r; - - - -
., , ... S. Cnsa t PTc'i. eat iI
~'
m.i.e w ,o....n ( q 1
- 1) Grachteo Greater Johnstown HS,19M' 2,' Nrformed PT in Level I capacity sin;;b 6/86 s
% . 3g 3 a
4 i 3 s i . . . ..a i . 1, .. ,a ,
- 1) Westinghouse NDE TI, 40 hours training in PT h
\ __
] [ o/rY \/
- General xm. 3:ecific w:\ [ Practical xmh dnf[i 7/22/87 100 x .4 ) N.4x.3 94 x .3 94.4 c . , . . .. . . . 6, ~ i . . . e 11one s)
\
a...... None
-s 3
G., . 4.;.. xx n o. . i . . .. . . .- o . . . I 7/22/87 7/22/90 x c. . .. . . s .
~~ Z [2d $Y YG0
l . e NDE PERSONNEL. VISION TEST REPORT sonu ss2sa t I WESTINGil0USE ELECTHIC CORPORATION MAT ER RE actor OtVISIONS lWMDI HAut 50CIAl. Sectary No. DAIE Of sentH Robert Cassat 189 44-9111 09/07/51 . - Alt es,44 cents f e NDE Coetificesien ese eesesised so pess a wislen sest v ishin thisey days of eeleinal cestil;ceilen seseine. Feene. newt see ee.e.i.ed to he en aanwee ehien ees.ns. sion. . E seeninetiees shall be conducted by @ Medical Depeetenent er esvalified peesens deslysened by senw. E seeninetien conducsed shell include h Iollowing:
' 1. Hoewel se careected neer distence scwily in et feest one eye such thet the applicent le cepeble of.eeeding JI leisees en h esondwd Joegee's test type cheea for near ehlen, se esculvetent. The ability to perceive en Ovshe ~
Reise Nwnber Ten 1801 test potteen er Tisenes Snellen Test l , Ecevieelents of 14/14 shall else be eccepteble. i
- 2. The ability se distinguish betwee..*e.osses sehen sesgu. M by week lPT, MT.UT.etc.) * *
- 3. Fw Iw distence scuity. e niininsent acceptable level of 20/30 Snellen leaction w einwivelent,lessed at I,wenty (20l leet (for elswel j leesiag wdyl.
) '
OArt Oy ExAssewArsose Apri1 2 7 ', 1937 APPLICANT 151GwAf tNtt
- g,fgf .
COe'.ntCTBVE t.ENSES /***^* ne ouen<o D vas Elwo -
. ACCer Aets RI was O wo '
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014 S Nslo WESTINGHOUSE ELECTRIC CORPORATION NUCLEAR SERVICES INTEGRATION DIVISION NDE CERTIFICATION RECORD, X ASME BPVC XI ASME BPVC lil
- 1. NAME: J.D. Funvak SSN: 190-42-2224
- 2. LEVEL (S) OF CERTIFICATION:
Exoiration Date Original Ce't. Date M ethod.L ev el Recert. Date 1/9/87 10/5/84 UT-1 N/A N/A 1/9/87 1/9/84 MT 11 N/A 8/19/89 8/26/85 v PT 11 N/A 12/9/86 7/29/85 VT-1/?/3/4-JI --
- 3. EDUCATION & EXPERIENCE:
Graduated Scott H.S., 1974 NDE experience up to 7/29/85: MT, more than 1,000 hours VT, 5511 hours PT, more than three months UT, 1335 hours
- 4. STATEMENT OF TRAINING:
W NDETI: UT, 11/11/83, 80 hours; PT, 10/7/83, 40 hours; MT, 10/14/83, 40 hours; VT-1/2/3/4, 12/9/83, 40 hours; Welding Inspection, 10/21/83, 40 hours. USS Corp: HT, 9/15/82, 20 hours X No
- 5. PHYSICAL EX AMINATION RECORD ATTACHED: Yes
- 6. ACTUAL GRADE (S) AND PERCENTILE WElGHTS FOR EXAMINATIONS: "
Metwod Gen. x wt Spec. x wt Prac. x wt No*' "' Sal'e 100 x .3 98 x .4 99.2% 1/4-6/84 UT _ 100 x .3 _ _,95 x .3 100 x .3 92.5% 1/4-5/84 MT .,_ 8 5 x .a 95 x .3 98 x .3 94.9% 8/19/85 PT _ 92,5 a 4 85.3 x 1/3 93 x 1/3 90.5% 12/9/83 VT-1/2/3/4 93.3 x 1/3
- 7. CERTIFICATION LIMITATION:
None
- 8. Remark: Certification upgraded on 8/26/85 v 9 Certified By:
~oa 6... ii c.. ~ .- ins, n n .3
W itngh.U6. F.,m PD0541 (183) 015 5q NDE CERTIFICATION RECORD u.,,.. s .... C/' 8.~ J. D. Funyak UT/ Level II a.-.i.. . a......e..
- 1) Graduated Scott HS, 1974
- 2) Performed UT in Level I capacity since 10/84 I
s i . . ~, . 1, .. . . -
- 1) Westinghouse NDE TI. 80 hours training in UT
- 2) Westinghouse NDE TI, 4 hours trainin: in UT (refresher training)
E xw,\/ Practical y,7\ c e apy9 xw, \/ Specific
/11/17,18
[M7 \/ General 90 x .3 90 x .3 93 97.5 x .4 21/86 I c.......c........ None P a,-.... O) (- c.. ..... ... n n u o... ......,..o... 11/21/89 11/21/86 c......... ~ Ww Es.sD tvDi LM/ LLL
Westinghouse Form PD0541 (183 016 NDE CERTIFICATION RECORD () m u.ia. 6.... J. D. Funyak MT/ Level II a .a . .., a e . .... . . .
- 1) Gr.:duated Scott HS. 1974
- 2) Performed MT in Level 11 capacity since 1/84 si . . . ., v , .. . .. .
- 1) Westinghouse NDE TI, 40 hours training in MT
- 2) Westinghouse NDE TI, 4 hours training in MT (refresher training)
- 3) United States Steel. 20 hours training in MT
/ $7 \/ General xw, \/ Spe:ific rwr\/ Practical xwr\ EnT[i 85 x .3 99 x .3 92.5 11/17/86 93.3 x .4 c........t....... .
None
/ \
(' ) aa a aae a.<.. o. . i . . . . . o .- c . 4. 11/'i7/86 11/17/89 c........ V$ N- [O$D ?A$' l i
@ W.stinehow Perm P00641 (103) 017 i NDE CERTIFICATION RECORD
- ..-.6.... '
J. D. Funyak VT1,VT2,VT3,VT4/ Level It e......e a a...... ...
- 1) Graduated S:ott HS, 1974
- 2) Performed VT1, VT2, VT3, VT4 in Level 11 capacity since 7/85 T
si .i. . . 1, .. ... .
' 1) Westinghouse NDE TI, 40 hours training in VT1 .
VT2, VT3, VT4 l 2) Westinghouse NDE TI, 12 hours training in VT1, VT2, VT3..VT4 (recertification training) f a
/ of,7 \ / General my \/_ Specific or\/ Practical ,,1\TToi -
85 x 1/3 94.2 x 1/3 87.3 82.7 x 1/3 N/h ' f
- c. . . . .. . . . , 6, m. i . i . ..
\
None 4
..n...,
i 4 O xmxna m* =.... o... 11/21/86 i....... .- o . . 11/21/89 c........., f5$ 0 /lCE & n: A, _ Q-
- y
4% NDE PERSONNEL VISION TEST REPORT ronu ss2s2 E WESTINGilOUSE ELECTRIC CORPORATION WATER RE ACTOM DIVISIONS lWitDI ' MAME SOCIAL SE CUntTY NO. DAIE OF SeRill
-Joseph D. Funyak 190-42-2224 11-09-56 .
All applicanes foe NDE Cestificeeson see sessuleed to pass a vision sest wishin shiesy days of neiginalcestiliration sesnas Presonnet are ee.y-c. se have en annual vision enemination. . Eneminessori sheII tse conducee.f e, , @ Medices Depertw wee or egualified persons designated by same. Ememinosien conducted shallinclude the fotsow.no
- 1. Neeural or corrected near distence acuity in et leset one eye such thet the appilcant is capsble of. reeding J1 letters en the stend test type chert ter near eleien.or esquivalent. The ability to perceive en Dethe Retee Number Ten (101 sest passern er Titmos Snellen Test Esguivalente et 14/14 shall she be ecceptable.
- 2. The ablesey se distinguish between celer enhen seguhed by week IPT. MT UT.etc.) *
- 3. For for distence acuity, e ensnimum eccepeeblo level of 20/30 Snellen fraction er ogvivolone tested et twerwy(201 feet Ifor visues i
le**ineea817 D4TE OF EmAnecesAttoes j-/9-87
"*c^" n ***"A m CONNECT 8vf LEseSES N orthk b_ $1 ti m $r neoosnfo O vEs wo
. ACCEPTAett VEs O wo f//
s > ,5?/vt/37
-.o.cm ,e...ee.n -
e,x e . O e* N l e
019 h kS10 WISTINGHOUSE ELECTRIC CORPORATION NUCLEAR SERVICES INTEGRATION DIVISION O- NDE CERTIFICATION RECORD , R. W. Hughes 1.NAME. SSN 209-28-1451 AsutspvClil X AsMEsPvCx1
- 2. LEVELt51 OF CERTIFICATION:
Method Level Recert. Date Eno;tation Date Oristnal Cert. Date UT-!! N/A 11-15-07 1-3-85
- 3. EDUCATION & EXPERIENCE:
Graduated Penn Hills H.S. 1955 More than 4 years NDE experience on UT and VT.
- 4. STATEMENT OF TRAINING:
W NTO UT Training, 8-15-80, 40 hours. F.NDETIUTTraining, 10-25-82, 40 hours. O 5. PHYSICAL EXAMINATION RECORD ATTACHED: Yes X No
- 6. ACTUAL GRADE (Si ANO PERCENTILE WEIGHTS FOR EXAMINATIONS:
M,,see General x we. Specificx wt Practicak wi. $?le' '"$a7" ' UT 90 x .4 92 x .3 RB r .3 905 11-20-84 1
- 7. CERTIFICATION LIMITATION: None B
J k O b Certified By: httO8037 448543
htine si.ve. Form PDOS41 (183) NDE CERTIFICAT,10N RECORD 020
.. w ..%. i
( ^i R. W. Hughes MT/ Trainee
.v , i s . ,. . . .. . a . -.. .
- 1) Graduated Penn Hills HS,1955 . . . . . . .._
~~
- 2) Graduated West Penn Tech., Dpl, Mechanical Drafting,1958 . . _
.......,r,...
- 1) Westinghouse NDE TI, 40 hours training in MT .
- 2) Westinghouse NDE TI. 4 hours training in MT . . . _ . . . . . . . . . ... . . . . .
= __ _ _ - . . _ . . . _ _ . . . . . _ . - _ _ . _ . . _ . _ . . . . . . . .
,t
/ ' fry \/ Gen 5ral my,\/ Specific rwrh/ Practical rwy\ EnTli 12/5/86 96.6 x .3 100 x .3 95 x .4 96.9 c.mi ..... u .....i None . . _ . _ _ . . . . _ . . _ . . . . . . . _ _ . _ . .
l c ... .. - a n u o. .. s . . .. . . .a o . . ' x 12/5/86 12/5/89 l c........... i DW :RSs0 !UDF Leutl N 1 i
@ Wastvev.s Foem PD064111831 NDE CERTIFICATION RECORD 021
~._ - . .m .~
gO- R. W. Hughes PT/ Trainee V a ... . .. .. . a . . . - . :
- 1) Graduated Penn Hills HS, 1955 '
~ ' "
- 2) Graduated West, Penn Tech., Dpl. Mechanical Drafting' 1958 si. . - i .,t, . .- -
- 1) Westinghouse NDE TI, 40 hours training in PT . . ... . . . . . _ . . .
~ . .._ _..._. .- . . _ _ . _ _ _ _ .
- 2) Westinghouse N.DE TI,'4 hours training in PT ._. _ . . . _ . . . . .._, __ i 1
/ ofrY \/ General xwr.\/ Specific rwrh/ Practical xwr.\ EEli 12/5/86 97.5 x .3 95 x .3 95 x .4 95.7 c.... ... v oi....:
None . ....... . _ . . _ _ . . . . . . . . .. . . .. c.... ....~R m o..- . > . i .a o . '. x 12/5/86 12/5/89 c........... D r- ESSD nIDE Level%
NOE PERSONNEL VISION TEST REPORT Fones 66262 E - WESTINGHOUSE Et_ECTRIC CORPORATION wa Enatacronoevessosesswnot
)
"^*** Robert Hughes
% @ 781 NEW 7/ 37 .
AM .-/ _.:. for NOE Cesificesien me receuered to pois a vision seia wishwi shirey days of oriynel coesificesien eessing. Personnet ere respeised se he en annues wi.ien eme newesen. . Emenenneesen sliest be conducted by @ ud Depereneont er agus4fied presens doespissed Isy sesne. - Emesninseesse conducted ehest incksde she M"_ - ,.
- 1. Meewel er corrected neer dimente ocuity in et least one eye such shot the spedicent is capelde of. reeding J1 letters en the stendeed Joeger's sees type chert ter near vision, er :;' ' :. The shility se perceive en Orshe Racer Muniber Ten (101 seet pottern er Tiennes Sassion Test Esgusselenes of 14/14 shall she he acceptable.
- 2. The ability se distine:Ish between celers when required by work IPT. R8T. UT. ecc.) *
- 3. For for diesence acuity, a misnanuni accepeekse levet of 20/30 SneIIen fraction er 7_' _' .J. sessed at ewoney (20ilost fler elemet -
seemas easyg. DATE or ExamesseAreoM
</.) ( $7 -
_ [)
- - -e-nnec RJLM.4LK o 0
c.o.oosn
.ccerr.=r o reve un.o gveso sso o no
&ww4 8 ' '
Wres
. o
. h3 h3 Mp.D 7-1 1-D teEDICAL E MAnassein OAsL"
7 l 023 NSl0 WESTINGHOUSE ELECTRIC CORPORATION NUCLEAR SERVICES INTEGRATION DIVISION NDE CERTIFICATION RECORD G C.W. Kiehl SSN: 178-30-8918 hASME ervC lil X ASME ervC xi
- 1. NAME:
- 2. LEVEL (S) OF CERTIFICATION:
Recert. Date Expiration Date Original Cert. Date Method.L evel PT f N/A 10/30/87 , 1/2/85 MT 1 N/A 10/to/R7 1/?/R4 UT-f N/A 10/30/87 1/2/85 VT-1/2/3/4-II N/A 9/13/86 9/20/85
- 3. EDUCATION & EXPERIENCE:
Graduated Pitcairn H.S., 1955 More than 20 years steel mill experience including UT, PT, VT and !!T inethods.
- 4. STATEMENT OF TRAINING:
UT: U.S. Steel, 5/16/74, 45 hours PT: U.S. Steel, 9/24/74, 13 hours MT: U.S. Steel, 8/28/74, 24 hours VT: W NDETI, Visual Examination Course, 12/7/84,40 hours (VT-1/2/3/4) X No
- 5. PHYSICAL EXAMINATION RECORD ATTACHED: Yes
- 6. ACTUAL GRADE (S) AND PERCENTILE WEIGHTS FOR EXAMINATIONS: Comp. Examination Method Gen. X wt. Spec. X Wt. Prac. X Wt. Grade Date PT RP_5 y .3 RE v .3 93 y .4 87T 11/2/84 MT 77.5 x .3 90 x . 3 80 x .4 825 11/2/84 UT R2.5 Y 3 90 Y .3 75 r .4 Rif 11/2/84 VT R7 Y l/3 $4 Y 1/3 94 y 1/3 Q@,3{ Q/})/Q$
4
- 7. CERTIFICATION LIMITATION:
None 4 c-.~ - e- v _.......... .. l
'O
- O :
NDE PERSONNELVISION 1EST ftEPOrit iUnM 55262 E - WESTINGIIOUSE ELECTRIC COMPORATION watEn nEAciort DiveslONS fvvnDI EAME . 500:AL 5ECUnliV NO. DA E Of SWItil Clyde W. Kiehl 178-30-8918 08-02-37 . All applicants for NUE Calification me seguised to pass e vision eest within thleey days el oilsinal testification testing. Peseemet see seguised to hoe en annual vislen enemination. . Eseminelleet shall be conducted by @ Medical Depentaient er qualilled peesens designated by some. - Eneminetiae conducted shallinclude 36 following:
- 1. Netwrol or corrected near distence sevity in et least one eye such that the applicent is cepeble of.remling JI letters on ik stendeed Joeger's test type cheet for near vision.or eguleelent The ability to percelee en 0 the ~
fleter Number Ten (10) test petteen er Titmos snellen Test
, Equivalents of 14/14 shell else be ecceptoble.
- 2. The abillty to disilnguish between colors when regehed by wonk (PT. MT.UT.ete.) *
- 3. For for distence ocwity, e minimum eccepteble level of 20/30 Snellen fenction er ogvivelent, tested et twenty 120l leet (for viewel -
seellas or.Irl. - 1 DATE Of EMAMINATION { - J/ -j(~/
- APPLICAN T*3 SION AitNtf [A/. 8
^'
cottnEcrivE LENSES .I . . pr omnto . VES G NJ .
. ACCEPTA9LE . E s' O No ,
I .
.D/W.
2-s M ! 1- , e.s ..m s .e .,
.nst o
- h3 A
s -
. . _ , _ , - . , - - . - - . - - - __ _ ,m . , ,. , , , . ,_ - , --%_ _
/ @ w. . .o , n . 025
- c. NDE CERTIFICATION RECORD
!v) s..
P. J. Kovallo
- u. .m . .
UT/ Level II 6 . . . a...,. ...
- 1) Graduated South Allegheny HS.1971
- 2) Performed UT in Trainee and Level I capacities since 1/84 si. .-i ., T , ... . .
- 1) kestinghouse NDE TI, 80 hours training in UT
- 2) Westinghouse NDE TI, 4 hours training in UT (Refresher Training) rr (O
xwv.\[ Specific xwth/ Practical xwv.\ [nYdi [ !>77Y \ [ General 12/5 & 8/86 82.5 x .4 85 x .3 94 x .3 86.7 c.,,......u...... None O c.. . ....~ n wn o.i. s . . .. . . .e o . i . 7/13/87 12/5/89 c........... Qc = EssD boF lett/E
., r
@ W.estwow.e F em P00641 (103) 026 O
NDE CERTIFICATION RECORD
- u. -. .
i P. J. Kovallo MT/ Level 11 a e.. . .. a . .... .
- 1) Graduated South Allegheny H.S.,1971
- 2) Performed MT in Trainee and Level I capacities since 1/84 St.t.m.e t .f Tr. .ios .
- 1) Westinghouse NDE TI, 40 hours training in MT
- 2) Westinghouse NDE TI, 4 hours training in MT (refresher training)
/ 07,7 \ / General xwv.\[ Specific wwyh/ Practical xwv.\ [mTi 100 x .4 100 x .3 96 x .3 98.8 12/2 & 5/86 c.. . . . .. 6. . .. .. :
None e......- ( c .. ...e mw.xa o. . i . .. . .. . o . . 5/15/87 12/5/89 c.. tite. By. py pssa was LoveI27r
West 4.eee Form P00E4' u23) 027 {') NDE CERTIFICATION RECORD s.. u....a .n P. J. Kovallo PT/ Level !! h .. m a a. ,. .:
- 1) Graduated South Allegheny H.S., 1971
- 2) Performed PT in Trainee and Level I capacities since 1/84 si . .- i ., t , .. . .. .
- 1) Westinghouse NDE TI, 40 hours training in PT
- 2) Westinghouse NDE TI, 4 hours training in PT (refresher training) 8 xwv \/ Specific xwth[ Practical xwv.\ InYdi
[ EN \[ General 12/2&5/86 90 x .4 90 x .3 90 x .3 90 c.......6...... None O c.. . ... . ... ma u o. . s . ... .. . o .i. 1/5/87 12/5/89 c.......... (~}' ;_ ESTD nDF h veI N
@ =mm, NDE CERTIFICATION RECORD 028 (J~')
\ u. .. . m m.m . . P. J. Kovallo VT1,VT2,VT3,VT4/ Level I a ... . ... a a . .... . :
- 1) Graduated South Allegheny H.S.,1971
- 2) Performed VT1, VT2, VT3, VT4 in Trainee and Level I capacities since 1/84 si . .. . . 1, .. .. .
- 1) Westinghouse NDE TI, 40 hours training in VT1, VT2, VT3, VT4
- 2) Westinghouse NDE TI,12 hours training in VT1, VT2, VT3, VT4 (recertification training)
& Practical [nYdi [ ofrY \ / General xwv.\[ Specific xwth/ xwvN h , .8/ 81 x 1/3 86 x 1/3 89 x 1/3 85 c..,.<....6....... None i
- m. n.. . .
n genxxxxx a .. o. . a . . .. .o ., o . i. 12/8/86 12/8/89 c.. a .. . e ,
\'y t ~ ~- -: 25SD W 4tvelW \
NDE PERSONNEL VISION TEST REPORT ronne ss2s2 E WESTINGHOUSE ELECTRIC CORPORATION WATER REACron OtVessons IWRDI nansE sociat secueury no. DATE OF SWIIH Paul J. Kovallo 211-40-8960 07-27-52 . AN spplicones Ier NOE Cweificesien we seguieed to peu a viden test weehin eMeey days et esiginal coetificeilen testing. Pasennet we repi.ed to have en ennuel violen soweinesien. . Esemineeks shaft be cord.scoed by @ boodical Depernewet er esNNed porsens dedyweed by eene. E messeinessasi senducted shen include she fecewing-
- 1. Neeurd er eerrected near diesence aculty be et loest one eye such that she appHeent is capable of.eeeding Jl letters en she stenderd Joeger's teet type chart ter near vielen.or : .r' _'_:_:. The*ability to perceive en Orshe Reeer Nuniber Ten Hol test postern er Tiesnes Snema Test
, Egoivalenes et 14/14 shall eine he - . * "-- -
- 2. The eWiley to distinguish between celoss when seguired by work IPT, MT, UT, etc.) *
- 3. For ler desence ecwiey, e niinineensi eccepteWe level of 20/30 Snemen kscenen erm : ' i J seeeed at teseney(201 feet (for viewe9 -
seeseg oneyL oars or ammesmearsaw ,}_$-37 - amica=rsies=avune$ ~ [ g j [ g ro ~ conatcreve treests ' movemo (/ O vas no -
. accertAets ves O no
. J // N V A ~ ~ as oec h 1 e a'u m s n 6 C x* s>
naic
~
O N n-- - - - ---- _ , -, -- ,- - - - . - , . - , - . - - - - , - - -- - - - - -- -- -- - --- - - - -
l [m 030 WESTINGHOUSE ELECTRIC CORPORATION NUCLEAR SERVICES INTEGRATION DIVISION NDE C2RTIFICAT10N RECORD ASME SPVC 111 X ASME OPVC XI
- 1. NAME:G. A.Morini .SSN192-40-4982
- 2. LEVEL (S) 0F CERTIFICATION:
Method-level Recert. Date Exoiration Date Oriainal Cert. Date MT-11 6/11/85 6/11/88 8/11/82 UT-11 6/14/85 6/14/88 8/13/82 ; 3.' EDUCATION & EXPERIENCE: Graduated Ambridge Area H.S., 1968. Minimum of 4 years experience on MT, UT, RT, Cert. Level II on MT, UT in 1978/1979. ] 4. STATEMENT OF TRAINING: MT: US Steel, 12/78, 20 hours. UT: US Steel, 11/79, 80 hours.
' UT: W NSID, Indication sizing, 3-29-85, 40 hours.
i Yes X No
$. PHYSICAL EXAMINATION RECORD ATTACHED:
- 6. ACTUAL GRADE (S) AND PERCENTILE WEIGHTS FOR EXAMINATIONS:
Comp. Examinatiorl . Method General x Wt, SDecific x Wt, Practical x Wt. gragg r Date , MT 805 x .4 '70% x .3 905 x .3 805 6/11/85 UT 82.55 x 4 765 x .3 1005 x .3 855 _6/14/85 t
- 7. CERTIFICATION LIMITATION: NONE O
Certified By: *
\.I 4
1
l 1
@ Win $h.W(183)
P am PD0H1 031 O NDE CERTIFICATION RECORD l
- i
- u. in.. < 6.. .i
'n/ ... PT / Level II G. A. Morini a....i..a s a......a .
- 1) Graduated Ambridge Area HS, 1968
- 2) Performed PT in Level II capacity since 2/84 s i . . ..,, . 1, . .. .
Westinghouse NDE TI. 40 hours training in PT t [ 'oYvY \ [ CENERAL xwt.\[ SPECIFIC xwth[ PRACTICAL xwt. k omYoi 97.5 X .4 82.5 X .3 100 X .3 93.7 7/31/86 c.. . . .. . .a 6..n.i . i .a NONE f t-) mx. .. . . i o... a . . .. . . . o . . 7/31/86 7/31/89 c.........,
^(j'-f - E5SO ADF L A W
w -- .
@ Westinghew.e Form PDM 41083) 032 ,3 NDE CERTIFICATION RECORD w.m u.. . m ...o 'x"/ G. A. Morini ,
VT1, VT2, VT3 VT4/ Level II
- 1) Graduated Ambridge Area HS, 1968
- 2) Performed VT1, VT2, VT3, VT4 in Level II capacity since 6/83
... . .. .,1,.... .
- 1) Westinghouse NDE TI, 40 hours training in VT1, VT2, VT3, VT4
- 2) Westinghouse NDE TI,12 hours training in VT1, VT2, VT3, VT4 (recertification refreshertraining)
,rn (v J
[ $Yv7 \ [ General xw, \/ Specific wwr\/ Practical xwv.\ EEo'i 90 x 1/3 86 x 1/3 90.6 8/5/86 96 x 1/3 c..........eu......., None A i t a m a +.... o. . .. . . . . . . . , o ... 8/5/86 8/5/89 c..........
%- ESJD ADE k%elN a
G s V O. NDE PERSONNEL VISION TEST REPORT f onM 56262 E WESTINGHOUSE ELECTRIC CORPORATION WATER REACTOR OtVIstONS lWROI NAME , SOCIAL SE CUIllTV NO. DA3E OF BIftIN George A. Morini 192-40-4982 b3/25/50 . Alt applicants for NOE Cessification are eessuired to pass a vision sest wishirs thlety days of esiginal cessificesien sessing. Personnet ese requeed to have en annual vision esamination. . Esemination sliell be conducted by @ Medical Deper tsioent er aquelified porsens desipieted by same. Esemination conducted shellinclude the 8:" i ,.
- l. Notural et corrected neer diesence aceity be et leest one eye such shot she applicant is e.p.u. ,f,,,eding jt leggers en the stonderd h*s seet type chera for neer violen, or essolvelent. The obNity to percelee en Orthe floter Nuniber Ten (IDI test potterr er Titmos Snellen Test Essidealents of 14/14 shall she be acceptable.
- 2. The ability se distingukh beeween celers uvhen resguised by weerk (PT, MT, UT, etc.) *
- 3. For for distence oculty, a minimum acceptable level of 20/30 Snellan leaction er -l " - _. tested at twenty (201 leet fler wieuel l'elent on%
DATE OF EM AtetteATION * [
.m.c..r. ..C e.To.,#A _ #g'gi. -
CORRECilvE LENSES REoueREo O vEs
- accErfastE O wo -'
)l[vEs .
l
/
VL A MfY3 wt nica n't s'aueistTs 4-
/ natt 7
o
. *-. ... - M U
L __ ____ __ _ _ _ _ _ _ . _ _ _ _ __ _ _ _ _ - - - ~ _- -w - _ _ 4 e-= _ m _ _ _ _ _ _ _ _ _ _ . _ . . _ _ _ _ - _ _ _ _ _ _ . _ . - _ _ _ _ . _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
Z)N'd,lO, 034 WESTINGHOUSE ELECTRIC CORPORATION NUCLEAR SERVICES INTEGRATION DIVISION ( 9' NDE CERTIF! CATION RECORD S. A. Sabo ASME BPVC 111 . X . .. ASME BPVC XI 1.NAME LSSN: 211-40-9304 . . ...
- 2. LEVEL (Si OF CERTIFICATION:
(rp ration Dat*_ hjrfrief Co,rt. Date Me'. hod Level Reeert. Date N/A 08/19/88_., !!/23/85 ._ UT-11 ,, PT-!! N/A ,, 06/14/88_.. ,, 074d/85 N/A 04/29/.g.9 04/30/e6 NI-II 07/29/85 VT-1/2/3/4-11 ,_, . , N G 12/09/86,,. _ ,,
- 3. EDUCATION & ' EXPERIENCE:
Graduated Duquesne Senior H.S., 1970 Experience up to certiffCation date in each method: UT-2116 hrs; PT-530 hrs; HT-700 plus hrs; YT-2669 hrs.
- 4. STATEMENT OF TRAINING:
yHDET!: PT,10/7/83, 40 hrs; UT,11/11/83, 80 hrs; HT,10/14/83, 40 hrs; VT-1/2/3/4, 12/9/83, 40 hrs. 7
\
('k. X No ,
- 5. PHYSICAL EXAMINATION RECORD ATTACHED: Yu 6 ACTUAL GRADE (S) AND PERCFNTILE WEIGHTS FOR EXA s1! Comp.NATIONS:E nemina tior) x Wt _ X M, X Wt. Gr ** _ ,, _,D a t e Me thod _
t llI. . . _ _ . 97. 5 x_,JL. 84x.3 _.15. x . 3 92.7% .En9-21/85 90 x .3 20., x. 3.__ 91 % _ __6/14/,8_5_ PT 85 x, _. 4 90 x .3 95.04% 4/30/86 MT 96.6 x .4 JO x .3 95 x 1/3 90.5% 12/9/83 VT-1/2/3/4 90.6 x 1/3 ,88 x 1/3
- 7. CERTIFICATION LIMITATION: None
;O, J
"^ b ,
Ct'tified C . .
- v. ....n,r..-.....
i l
- b. . . . _ .. _
@ Westingh.v.e Form PD0541 (103) 035
; NDE CERTIFICATION RECORD
(~'I
'~- u. .
m m.a:s .e S. A. Sabo VT1,VT2,VT3,VT4/ Level II a.....a......~.-
- 1) Graduated Duquesne Senior H.S.,1970
- 2) Performed VT1, VT2, VT3 VT4 in Level I and Level II capacities since 7/85 i
l l
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- 1) Westinghouse NDE TI, 40 hours training in VT1, VT2, VT3. VT4 l
- 2) Westinghouse NDE TI, 12 hours training in VT1, VT2, VT3. VT4 (recertification training) t [nT[i
/ ofv7 \/ General xwv.\[ Specific rwth[ Practical xwth 90.2 x 1/3 91 x 1/3 97.7 x 1/3 92.9 10/7/86
- c. . . . . . . ., t . ~ i . . . .e None ,
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>v) a u a a u = = .. . o... s . . . . . . ., c . . -
10/7/c6 10/7/89 c........... c)"i nso NDF be I112
O ~O NOE PTRSONNEL VISION TEST REPORT f ORM 55262 E WESTINGilOUSE EI.ECTRIC CORPORATION WATE R RE ACTOM DIVI 540*e1 IornOI M**8E SOCIAL. SE CUnliY NO. DATE OF SistIH Stephan Sabo 211-40-9304 05-09-52 .
. AII apr icanes a for NOE Cwtitiemien me seguised se peu a wislen test us6ehin chiety deys of wisinal ce,tilication sessing. Poesonnet one required se home en annuel violen seeniinesien. .
Emenesnecien shall be conducted by @ Medical Depessement er aguelitied persens desipieted by sesne. E manienseien conducted ehest include the 52_ _ _ ;;
- 1. Notwel er eastected near diesence aceity in et leest one eye such shot she oppelcent is capable of.eending JI letters en she standard M*s test type ehert Ier sneer vielen.or _ , -.* _ J_ nt. The abilsey se percelse en 0:she Meier Nuniber Ten (101 test poetern er Tiesnee SneEn Test E;_: f n of 14/14 sheet else he occups.iste.
- 2. The abgley se alletinguish behesen colors udien regubed by merk IPT MT.UT. Acj *
- 3. For for diesence acutey, e esiinisnwse accepteMa level of 20/30 Snellen iraction w egisleelone, sessed et twwwy pol feel Ilw w6suel leeas eaM 1 -@ -Q ]
DATE OF EstAsesetAficed APPt DCAesi'S StGotAYtfME , ConMECitvf LEteSES J
#E OUtstE O t&vts 0 900 1 . ACCEPTA9tf ES U seO 1
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037 h NSID WESTINGHOUSE ELECTRIC CORPORATION NUCLEAR SERVICES INTEGRATION OlVISION NDE CERTIFICATION RECORD Michael E. Smith i SS : 226-90-7689 4 3 u g s p y c iii AsME srvC xi
- 1. NAME:
- 2. LEVELfS)OF CERTIFICATION:
Empiration Date Original Cert. Date 1 Method Level Recert. Date 2/1/89 2/1/80 MT-II N/A 2/1/89 2/1/86 PT-!! N/A 1/31/89 1/31/86 UT.II N/A _ N/A 2/3/89 2/3/86 VT-1/2 / 3/4 -II -
- l 4
- 3. EDUCATION & EXPERIENCE:
GED Henrico Co. VA,1982. 7 Over 3~ years experience UT, MT, PT, VT.
- 4. STATEMENT OF TRAINING:
Spartan School of Aeronautics. Tulsa, OK, grad.1982, ' UT-120 hours, MT-45 hours, PT-45 hours. N(9 g VCR - VT-1/2/3/4, 70 hours, 1982. , 6 X No S. PHYSICAL EXAMINATION RECORD ATTACHED: Yes
- 6. ACTUAL GRADE (S) AND PERCENTILEWElGHTS FOR EXAMINATIONS: Comp. Enemination Prac. x wt._ orece oote Method _ Gen. X wt. SDec. X wt i
72 x .3 96 x .3 88.4% 2/1/86 MT i 95 x 4 92.5 x .3 98 x .3 93.1% 2/1/86 i PT 90 x .4 ' 72 x .3 100 x .3 87.6% 1/31/86 UT 90 x .4 ~ 82.8 x 1/3 91 x 1/3 83.8% 2/3/86 { VT-1/2/3/4 77.7x1/1 I J 7. CERTIFICATION LIMITATION: $ None. r a 7 lO certif>ed By: wy _ I i n oa s.... m s.. a.. t 4 e 8% .6%9 .4 44 4% 1
NDE PERSONNEL VISION TEST IIEPORT ronM 662s2 E 4 WESTINGHOUSE El.ECTRIC CORPORATION WAf t R ME ACTOR DevoteO80s fwpol MAME 500AL StCUnt1Y B00. DATE OF semfH MICHAEL EVERETT SMITII 226-90-7689 9-10-59 . AN applicants for NOE Corlificessen era ensuicid se pass e eision sest wishiri sherty eleys of original cesissuessen sessing, Personne le beoe en annual visiers esamination. . Esemenstion shall be conducted by @ Medical Deperamont er aswelified persene '- '._ :f by same. E meminieeien conducted shallinclude the foco lag
- 1. Neeweel or corrected neer distence aceiey in et looet one eye sede shot she applicant is empaaA= of. reeding J1 leesors en the test E; '
type chart for einer violen. et seculeelent. The ability to perceive en Orstie fleser Number Ten (101 eest pottern er Tiemos SneNen Tat r et 14/14 shell else be acceptable.
- 2. The ability se distinguleh between celers vehen regwired by work IPT. MT. UT.etc.) *
- 3. For for asiesence seuley. a minimwgi ecceptable level of 20/30 SneIIen fraction er equivelerw. tested et tvneney (201 Sees leer viewet Beehne on8vl-para or tuasseeenveOu
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a : WESTINGHOUSE NUCLEAR SERVICE OlVISION . 039 *
,, INSPECTION SEHVICES
,' - ULTRASONIC EQUIPMENT i (TRANSDUCERS) (
,,y7 J. M. FARLEY n y,7 II vtAM 1987 TRANSOUCER MANUPACTUREM SIZE FREQUENCY SimlAL NO.
NUMS ER 1 Krautkramer 0.25 245 21135 2 , Panametrics 0.5X1 2.25 29506 . [, 3 Krautkramer 0.375 2.25 31237 4 Panametrics 0.5X1 1.0 39795 5 Krautkramer 0.5 2.25 40397 0.5 2.25 40648
'l 6 Krautkramer _
7 Panagtrics 0.5X1 2.25 49297 8 Pang;etrics 0.5X1 2.25 49298
*9 Panametrics 0.25 5.0 56207 10 _
Panametrics 0.5 2.25 56757 11 Panametrics / 0.5 2.25 56760 12 Panametrics 0.5 > 5. 0 57274
; 13 Krautkr, amer 0.25 5.0 60281 14 Krautkramer 0.375 5.0 75188 1 15 Krautk_r amer 0.375 5.0 75189 ;
16 Krau_tkramer 0.5 5.0 80329 . 17 Krautkramer 0.5 5.0 B06675 r i 18 Krautkramer 0.375 2.25 C03621 l j 19 Krautkramer 0.5X1 2.25 015535 20 Kraetkramer 0.5X1 2.25 015542 } , 21 Krautkrarge 0.375 2.25 D15617 l 1 22 Krautkramer 0.5 5.0 E08438 23 Krautkramer 0.75 2.25 E18246 24 Krautkramer 0.5 2.25 F10379 25 Krautkramer 0.375 5.0 F16316 ; i 26 Krau t kramer ,_ 0.375 5.0 F16624 8 C M M 49 217
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4 ' WESTING 4OUSE NUCl.5AR SERVICE DIVISION QdQ INSPECTION SERVICES s ULTRASONIC EQUIPMENT [e b' f] hs. puur 'J. M. FARLEY (TRANSOUCERS) UNIT YEAR s FRECUENt't
~
TRANSOUCER MANUFACTURER S'.EE - SERIAL NO.
.j l, NUMB ER i'
.i . 27 Krcutkramer U. 25 2.25 F28239 4 .
',2 28' Krau
-. tkr,.a.r x .-!er
- 1. 0 - 2.25 G07311A 29 Krautkramer 1.0 2.25 G07313A
~
30 Krautkramer - - ' 1,'.0 - 1.0 'H25353 ! 31 Krautkramer ; 0.25 2.25 K01412 32 Krautkramer 0.25 59 K18417 33 Panametrics 0.75 2.25 P45882 i L l' __ _ . : j s > a muse emmuum h , ( t --. , D - m 9
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i TRANSDUCER CERTIFICATION ft ansducer Description ;; 041 rios Afh rh A S/W ff N .. A a
! - =vy a,-
quency d25 Mx: Size eOS
. 1 M l.d C O Connector WO
- - - TRACE ,, ,,
hContact _ Imersion _ Nonfocused I Water Path dM Spherical Target /O" Ef ~ Cylindrical TRACE ' II Relative sensitivity M dB !
^
Energy Setting S Impedance b b TRACE III j_akor{CenterFrequency MHz 4 , ,, Inspector i b Date N-)- - C D E F Tastine Procedure The real time waveform shown in the photo above is the first return echo from a reflector soleeted with respect to transducer type. All contact (wearplate) transducers are tested on a flat steel (4340) plate while open-faced shear wave transducers are tested on a flat polymer ek. Dual contact transducers are tested on a flat polymer bloch,unless otherwise ified. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the my line. Nonfocused imersion transducers are tested in water over a flat steel plate usias er path as specified above. Focused 1sunersion transducers are tested the same as ns_ scused transducers except that the water path used is equal to the actual focal langth. Using en AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a Tektronix 7L12 f requency spectrum analyzer in a 7704A Mainframe, the real time waveform. UTA-4 gate signal, and the frequency spectrum of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the reti time waveform is cdjusted to a six centimeter amplitude ( 1 dB) on the CRT. With the vertical calibration of Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson. Reni Time Waveform - Trace II Screen writing figurcs A and F provide the vertical and horizontal screen calibration respectively for Trace II. Cate Marker - Trace I Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for Trace I is the same as that fur Trace II. The portion of Trace II that falls within the gate time period is the signal fed to the frequency spectn.un analyzer. 9 Frecuency spectrum - Trace III Screen writing figure E provides the horizontal calibratl>n for Trace III. Figures B and V ow the spectrum analyzer's attenuator and resolution settings respectively. KRAUTKRAMER BRANSON P. O. Box 350 Lewistown, PA 17044
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042 O *AN AMETRICS tr' =cr~' $=n.**mau wamc+ur's mmm m P CONTACT TRANSDUCER ANALYSIS Part No. h_}/g[5
. Serial No. 2 9506 .
Frequency Q .,QS*~ _ MHz. Size: . ._ ~ " diameter; _f f " by h __,". Cable: RG _ length ,d, _ f: Echo from back surface of,: " thjck fused silica.
. /,o th$ck luc $te.
.. ____ ff thick polystyrene.
L TF.ST JNSTRUMENTATION Panametries 5052PR Pulser Beceiver Waveform Panametrics 5052G Stepless cate Pulser Receiver Se tings. Tektronix 770L'A Oscilloscope System Energy SettinE / -
, with 7A26 Dual Trace Ampl$ fier Receiver Attenuation %_,_d?
7E53A Dual Tine base Receiver Damping s'd ch . 7L32 Spectrum Analyzer Oscilloscope Sett ings : i Ce frequency is determined by 3-Vertical Sensitivity /div. mu3 up]yinc the hcrd zontal scan width (4) by the number of divisions to the 2-Horizontal Sweep Rate /div. j spectrum peak. ! 3-Scale Format.
- - ~ ~ 1' 1 1 Frectrun Anaivsis l
-{,y k g g @ hg _-...a, . .-.- . ...
Orci3)cscope Fetncr; I 1 E EDE 1 gg ~ ' 5-sesciution. hih k f-Input At t e nua t i c.n . E . lim. IR d !, mum.g g. g n v g Technicien# L M- __ s g46 h Date _ .. ?sqM .- - O d ENEME . i
$ 4 2 t Of
puursDUCER CNETI CATION [-
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'TMeducer Descristion ,
- M. '[ r pphy
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. 331.s knN4 ses 8,31 c13-) i
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, 043 _ ,
quency M , 8 MNE Site bW Shale _Mb '61G Connector Wb L Jontact Immersion Nonfocused TRACE I g '[ ! ,' i . Water Path dM Spherical m Target /,O / #/f X Cylindrical TRACE Relative Sensitivity [- dB Energy Setting _ M Impedance b TRACE > P% .dQ%
\
i Peak or Center Frequency M C MHz Inspector YD Date 2 *Mb k Tactinr. Procedure E F-'-~---~ The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a flat steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer block. fled. Dual contact transducers are tested on a flat polymer block unless otherwise y line. Delay fingertip rezovable (Style DFR) transducers are tested off of the tip of the a ( 'r path as specified above.Wonfocused imersion transducers are tested in water over a flat steel pl n( Focused imersion transducers are tested the same as ased transducers except that the water path used is equal to the actual focal length. Using an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a Tektronix 7L12 ' frequency spectrum analyzer in a 7704A Mainframe, the real time waveform. UTA-4 gate signal, and tha frequency spectrum of the gated signal are slaultaneourly displayed and photor,raphed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time wavaform is edjusted to a six centimeter amplitude ( l dB) on the CRT. With the vertical eslibration of Trace II fixed at 100 millivolts per division, the amount of attenuation used providas a relative sensitivity rating for all transducers certified by Krautkramer Branson. Real Time Wavefom - Trace II ' respectivelyscreen writing for Trace figures II. A and F provide the vertical and horizontal screen calibration i Gate Marker - Trace I Screen writing inconsequential figure C provides the vertical amplitude of the gate marker and is an figure. II. The horizontal calibration for Trace I is the same as that for Trace The portion of Trace II that fr.lls within the gate time period is the signal fed to the frequency spectrum analyzer. Frecuency Spectrum - Trace III screen writing figure E provides the horizontal calibration for Trace III. Figures B and D show the spectrum analyzer's attenuator and resolution settings resMetively. , XRAUTKRAMER BRANSON P. O. Box 350 Lewistown, PA 17044 _ - , , , - - _ , . , . ,,w_g.. . - _ . . - , . _ . - . , , , , , , _ ,,,_p,__._.,,,,,,,.,,._.._y. , . , , , _ , . _ . . . _ , , _ , , , . , _ .y_ , ,
,,,_,,,,.,_,.m,, , . , , , , , ,%_, ,-.w,m-.,--&,,*-ww-
c-_--a m 044 f PANAMETRICS ni c=sem n=n.we mmesms anm.ir. ,n. reu, ums ( CONTACT TRANSOUCER ANALYSIS ' Part No. d! . Serial No. _2 % f . Frequency _ / O HHz Size: ' " diameter; sf " by /O ". Cable: RG- [J/v , length _[ f Echo from back surface of: " thick fused silica.
/, 6 " thick lucice.
" thick polys tyrene.
' ~
TEST INSTRUMENTATION Panametrics 5052(PR,C) Pulser and Cate f Waveform Panametrics 5052UA or 5030A # Pulser Receiver Settings : Tektronix 77CM A Oscilloscope Sys tem g Energy Setting [ . with 7A26 Dual Trace Amplifier Receiver Attenuation 70 dB. 7B53A Dual Time Base Receiver Damping 60 oh=s. 7L12 Spectrum Analyzer , Oscilloscope Settings:
.' enter frequen:y is determined by 1-Vertical Sensitivity /div.
multiplying the horizontal scan vidth (4) by the number of divisions to the 2- Horizontal Sweep Rate /div. a pec t r um pe a k.
, , 3-Scale Terust.
Spectrum Analysis Oscilloscope Settings: i r - P " ' \
'~7 4-Horizontal Scan Width /div. !
Gas 8 ggg{- g ,f.y :;jj g ( 5-Resolution. 3 h h 5Iki,LM h h h 6-Input At tenuation. hhh,'hNUh
&] MyF., m iy a s EI! ., 3 Technician FN, o-
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TREEIEEE DE j 5 S' - , - - - - . , ,, , , . . , - , , . , , - - - - - - , , ,. , _ , . - . - n-,--.m n. , , , - , - - - -
Transducer Description ^ B q -
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TRACE I ' - w- : - ' Frequency Q,3 T MHz Size .5 o I I _. q _3 ._ I L S, al No. 4439'? n. _ .
.= s y "ontact [J Imersion S Nonfocused ,
l , , (( ; Water Patha Spherical - . . . O Cylindrical . TRACE : l l Style /7/8M6CConnector _p)O II , Relative Sensitivity M (_, OB : * -- -
.. 9 Energy Setting 2 Impedance __fojt .
l @ ^ f
^^
h h' __ h~* i' i ? ' f , - TRACE I Inspector /T1K Date 7 .3 /-P 3 III ! Testing Procedure C D E F The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a 1.0" flat steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer block. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the delay line. Nonfocused immersion transducers are tested in water over a flat steel plate using a water path as specified above. Focused imersion ansducers are tested the same as nonfocused transducers except that the r path used is equal to the actual focal length. ( 1 sing an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a T(,. inix 7L12 frequency spectrum analyzer in a 7704A Mainframe, the real time wu orm, UTA-4 gate signal, and the frequency spectrum of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time waveform is adjusted to a
- six centimeter amplitude (+ 1 db) on the CRT. With the vertical calibration of trace 11 fixed at 100 mT111 volts per division, the amount of attenutation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson, Real Time Waveform - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for trace II.
Gate Marker - Trace ! . Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for trace I is the same as that for trace II. The portion of trace II that falls within the gate time period is the signal fed to the frequency spectrum analyzer. Frequency Spectrum - Trace 111 Screen writing figure E provides the horizontal calibration for trace !!!. es B and 0 show the spectrum analyzer's attenuator and resolution s :gs respectively. mm* // 3 .242 '594 MMC-KRAUTKRAMER BRANSON P.' O. Box 350 Lewistown, PA 17044 l
TRANSDUCER CYRTIFICATION , Transducer Desceletieel - 046IN Dies Aua ,,, S/W MM ---. A .B . g_
#, m.f
,uency d 25' 10lz Size s
$' mfdGC Connector 9er. O -~~,
, _ , TRACE jocar (p/ < .yo.g. bwontact Inumersion Nonfocused I g Water Path ~ Spherical 9. I l
~ j -
l Ta.cget A # Y e/M - Cylindrical TRACE . II t i 8 R31stive Sensitivity dB A $ -- - - I Encrgy Setting / Impedance #Ett TRACE a J . Nakor Center Frequency J< /#~MHz N MU DT N Inrpector E8 Date (*#8 i C D E ? l Tastinz Procedure ! The real time waveform shown in the photo above is the first return echo from a reflector , selected with respect to transducar type. All contact (wearplate) transducers are tested on a t steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer j s Dual contact transducers are tested on a flat polymer block unless otherwise (qk. dsj/ fied. line.Delay fingertip removable (Style DFR) transducers are tested off of the tip of the Nonfocused Lacersion transducers are tested in water over a flat steel plate using a[ e path as specified above. Focused immersion transducers are tested the same ,as no , ased transducers except that the water path used is equal to the actual focal langth. l Using an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a Tektronix 7L12 frequency spactrwn analyzer in a 7704 A Mainframe, the real time waveform, UTA-4 gate signal, and the frequency spectrum of the gated signal are simultaneously dirplayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time waveform is adjusted to a six centimeter amplitude ( 1 dB) on the CRT. With the vertical es11bration of Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a j relative sensitivity rating for all transducers certified by Krautkramer Branson. Ron1 Time Wavefons - Traca II Screen writing figures A and F provide tha vertleal and Pceizontal screen calibration r- 'ectively for Trace II. cato Marker Trace I
- Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for Trace I is the same as that for Trace II. The portion of Trace II that falls within the gate time period is the signal fed to the j frequency spectrum analyzer.
Frequency Spectrum - Tesco III Screen writing figure g provides the horizontal calibration for Trace III. Figuras B and
ow the spectrum analyzer's attenuator and resolution settings respectively.
KRAUTKRAMER BRANSON F. O. Box 350 l Lewistown, PA 17044
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PANAMETRICS =' ==n 5= == '.*:'=>'a' c.. s
- CCNDC 2FMIMM ANALYSIS Ma,
$ @- S$ RIAL NO. M 1 M FREQUENCY .1 15
.T N O .-- .
# 5" " by (,0 " CABLE: RC- LENGTH Y f..
I: ". DIAMETER: .
" THICK FUSED SILICA.
O FROM 3ACK SURFACE OT: ' [. O " THICK. LUCITE.
" THICK POLYSTYRENE.
TEST INSTRUMENTATIC)' AMETRICS. 5032(PR,G) PULSEE AND CATE d WAVEFORM I PULSER RECEIVER SETTINGS: . NAMETRICS 5052UA CR 5030A 4 l ,;,, , ,, a 7704A OSCILLOSCOPE-SYSTEM ,, ENER,CY SETTING . RECEIVER ATTENUATION D dB. vich 7A26 DUAL TRACI AMPLITIIR RECEIVER DAMPING TO CHMS. 7353A DUAL TDfE BASE ' ,, ff I OSCILLOSCOPE SETTINGS: car frequency is deter =ined by . 1- tical S usich i W div. ciplying the horizontal scan vidth , by the Pumber of divisions to the 2 - Horizontal Sweep Rate /div. .etrum peak., 4 ,,,,1. , , SPECTRUM ANAL *lSIS
= _ .
,- 3 .-.
3 - Scale, Format. gm fgg 4- Horszontal Sean Width /div. gg _ qw , . _ _
; "wN ' - +i N 5 - Resolution.
"= 6 -Input Attenuation.
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. W :45= m. _.:_ =.
9 " k Mgm = 'orri g.:e Q.; -. g ,f - - ._..
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PA N AM ETR I CS = == 5= **" ,
. CrNDCT TPANM ANALYSIS
_ FREQUENCY, 1 . 1 b MHz f I NO. h 903-$ SERIAL NO. Q D 4f.-
- g. - ." ' IAMETER:D ,, S- " by (O CABLE: RC 5 1 LENGTH 0 TROM 3ACK SURFACE OT:
" THICK FUSED SILICA.
- I. O " THICK. LUCITE.
' .' - " k' HICK POLYSTYRENE. TEST INSTRUMENTATIC" , ANAMETRICS 5052(PR,G) PULSER ND CATE d WAVEFORM ANAMETRICS 5052UA OR 5030A # l 'fPULSERRECEIVERSETTINGS: l with ( 7704A 7A26 OSCILLOSCOPE SYSTEM - DUAL TRACE AMPLIFIER ENERGY SETTING RECEIVER ATIENUATION D dB. RECEIVER DAMPING _TD OHMS. 7353A DUAL TIME BASE ff 7L11 SPECTRUM ANALYZER OSCILLOSCOPE SETTINGS: cer frequency is determined by . 1 - Vertical Sens ttiv.ty/div. tiplying the hori: ental scan vidth ' bv. the number of divisions to the 2 - Horizontal Sweep Rate /div. et$-um pe ak'. , f 3 m " .. . SPECTRUM ANALYSIS
.i j
-_ g
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--4 g 3 - Scale Pormat.
4 - Horizontal Sean Width /div.
"f_ ---
N 5 - Resolution. fli f M ij- 1 - Sfd33jlBi
., E 6 - Input Attenuation.
I ip ) OLM1 QBL .
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049 \ PM ETRICS = c=c=" 5=rr =" -""""" """ - CENDCP TPRMTYTR ANALYSIS - l PART NO.N fb SN AL NO.D 7 FREQUENCY $ah MRz SIZI: M " DIAMETER:
- " by " CABLE: RG- , LINGG k it .
ICHO FROM ZACK SURFACE OF: [s C " TEICK FUSED SILIqA.
" THICK LUCITE. !
" THICK POLYSTYRENE.
N . I i TEST INSTRUMENTATIC" i i PANAMETRICS 5052(PR,C) PULSER AND CATE f WAVE 70RM PULSER RECEIVER St.AAINGS:
, - PANAMETRICS.5052UA 01 5030A , #h TII 7704A OSCILLOSCOPE SYSTD' INERGY SETTING [ .
l with 7A26 DUAL TRACE AMPLIT' RECEIVER ATTENUATION T dB. DUAL TIME BASE PICEIVER DAMPING / M _ CHMS. 7353A. 7L12 SPECTRUM ANALYZIR OSCILLOSCOPE SETTINCS: j Centes frequsncy is determined by . 1 - Vertical Sensitivity /div. . fultiplying the horizontal scan vidth (4) by the number of. divisions to the 2 - Horizontal Sweep Rate /div. spectrwn peak. 1 3 6 m n' r SPECTRUM ANALYSIS it
# . 3 - Scale Format.
=~ i _
- 7. L j./ 4 - Hor'izontal Scan Width /div.
N : IShekI i YEM .h+ Nb - 5 - Resolution. .
-,,@lN?$f??' Mb-@.hD. 7: cc'-[
. ' ? '- - ::
6 - Input Attenuation.. .. l v' W, n , W. 3 C ,;.id . 'z ! 'M L.c '
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^ OSCILLOSCOPE SETTINGS:
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- l TEST INSTRUMEPrIATIC" PANAMETRICS 5052(PR,G) PULSER AND CATE f WAVEFORM - <
PANAMETRICS 50520A OR 5030A f PULSER RECEIVER SETITNGS: i . ONIX 7704A , OSCILLOSCOPE SYSTEM ENERGY SETTING f . h 7A26 . DUAL
- TR>tCE AMPLIFIER RECEIVER ATTENUATION k d3.
7353A DUA$ TIME BASE RECEIVER DAMPING N O OHMS. 7L12 SPECTRUM ANALYZER OSCILLOSCOPE SETTINGS: Center frequency is determ.i.ned by 1 - Vertical Ser.sitivity/div. ... fultiplying the horizontal scan width ] (4) by the number of divisions to the 2- Horizontal Sweep Rate /div. spectrum peak. 4 1 4 -
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1 1 I . . . - . . . .. .. . - - . l l _ .. . , _ _ , _ , . _ . . _ _ _ . . _ _ . . _ . _ - . _ . _ _ _ _ . . _ _ _ _ . . ~ _ , . . _ _ _ _ _ _ _ _ . _ . . _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ . _ _ . _ _ _ _ _ _ . . _ . . . _ .
Transducer Description , . . _ A 8 u..s& &, pj'b ' Series $ A Mrv 1A .
~-
TRACE MHz Size . a.5 ',
- quency 5,0 i .,
. rial No. food 8i % l
[ 'ntact [-) Irrinersion Q Nonfocused i $'.9 .; Water Path a Spherical Q Cylindrical j s
- j '
j TRACE ' : Style Trl%)GC Connector p0 II ! ( [.'. 1 Relative Sensitivity 32 OB N 5 ' Energy Setting EL Impedance 5 0.a. TPACE Inspector /v))( Date 8 $3 !!! Testing Procedure C D E F The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a 1.0" flat steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer block. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the delay line. Nonfocused immersion transducers are tested in water over a flat steel plate using a water path as specified above. Focused irrinersion sducers are tested the same as nonfocused transducers except that the
>Cgrpathusedisequaltotheactualfocallength.
sing an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a ('onix7L12frequencyspectrumanalyzerina7704AMainframe,therealtime waYeform, UTA-4 gate signal, and the frequency spectrem of the gated signal are simultanecusly displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time waveform is adjusted to a six centimeter amp'.itude (+ 1 db) on the CRT. With the vertical calibration of trace II fixed at 100 millivolts per division, the amount of attenut3 tion used provides a relative sensitivity rating for all transducers certified by Kraut %ramer Branson. 2 Real Time Wavefor,m - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for trace 11. Gate Marker - Trace ! Screen writing figure C provides the' vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for trace I is the same as that for trace 11. The portion of trace 11 that falls within the gate time period is the signal feo to the frequency spectrum analyzer. F equency Spectrum - Trace 111 Screen writing figure E provides the horizontal calibration for trace !!!. i es B and 0 show the spectrum analyzer's attenuator and resolution l
. ings respectively.
KRAUTKRAMER BRANSON P1bbet.# //4-A28-6'1b M6104c P. O. Box 350 Lewistown, PA 17044
TRANSDUCER CERTIFICATION 054 Trensducer Description * 'P" es @"\ m b S/N /N 1- a Frequency 5 . O was Srze .M
'. M N _ Connector Db ~
~: 7 - ~r r- ~ T TRACE g g 'y !.
hContact { Immersion Eonfocused I 7 _ _ _ - _ . Water Path iN ] Spherical ' Target /.b M
~
Cylindelcal TRACE " 77 Relative Sensitivity a dB - snergy setting C51 Impedance bb TRACE III
\
Peakor{CenterFrequency O MHz ; Inspector [b Date N - l
~~C D E F yestlnr. Procedure The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) tearisducers are tested on a steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer
- k. Dual contact transducers are tested on a flat polymer block unless otherwise s ified. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the d{ line. Nonfocused inneesion transducers are tested in water over a flat steel plate using a .c path as specified above. Focused innersion transducers are tested the same as noncocused transducers except that the water path used is equal to the actual focal length, Using an AER0 TECH Ultrasonic Tranaducer Analyzer, Model UTA-4, and a Tektrnnix 71.12 i
frequency spectrum analyzer in a 7704A Mainframe, the real time waveform, UTA-4 gate signal, and the frequency spectrum of the gated signal are sinultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the raal time waveform is adjusted to a six centimeter a=plitude ( 1 dB) on the CRT. With the vertical calibration of Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson. Real Time Wavefons - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for Trace II. Cato Wark'er - Trace I screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibrat-ion for Trace I is the same as that for Trace II. The portion of Tesco II that falls within the gate time period Is the signal fed to the frequency spectrum analyzer.. Frequency Spectrum'- Trace III
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' Screen ' writ'ing figu're E' provides the ho'7- 3.,-clsontal calibration for Trace III, Figures B and the spectrum analyzer's attenuator and resolution settings respectively.
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TRANSDUCEE CERTIFICATION 055 Transducer Description ,
, 7,y,.j y , ' , Yg,
) Series - SMM S S/5 DlD -
, .,%, M :+s.,. o uency b.b MHz Size . M N f* 'e M l M O., Connector Yhh i '
TRACE
. Jontact Immersion Nonfocused I g, j 4 !Q'jl '
Water Path iN Spherical Target /A FX ~ Cylindrical TRACE II Relative sensitivity M3 dB Energy Setting M Impedance $ b TRACE _ eak or Center Frequency k NMHz Inspector Mb Date 3~N*b C' D 7 F~
~ " " " "
Testing Procedure The real time waveform shown in the photo above is the first return t.cho from a reflector i selected with respect to transducer type. All contact (waarplate) transducers are tested on a flat steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer block. Dual contact transducers are tested on a flat polymer block unless othervise
")ified. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the e
my line. Nonfocused imersion transducers are tested in water over a flat steel plate using ir path as specified above. Focused imersion transducers are tested the same ss nf
,used transducers except that the water path used is equal to the actual focal length.
Using an AER0 TECH Ultrasonic Transducer Analyzer, P.odel UTA-4, and a Tektronbc 7L12 i frequency spectrum analyzer in a 7704A Mainframe, the real time waveform. UTA-4 gate signal, ' and the frequency spectrum of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time waveforta is adjusted to a six centimeter amplitude (i i dB) on the CRT. With the vertical calibration of Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson. Rsal Time Wavefom - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for Trace II. Cate Marker - Trace I Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for Trace I is the same as that for Trace II. The portion of Trace II that falls within the gate time period is the signal fed to the frequency spectrum analyzer. l Frequency Spectrum - Trace III l Screen writing figure E provides the horizontal calibration for Trace III. Figures B and D show the spectrum analyzer's attenuator and resolution settings respectively. ' l KRAUTXRAMER BRANSON l P. O. Box 350 Lewistown, PA 17044 _ ,,,__,_,__---wm -a."'=N" " ' ' - ' "
- TRANSDUCb CERTIFICATION 056
! Transducer Description i t.s (%mnm se TO3a9 ._t <~~s_ - quency 5. 0 Maz str. ,%_ - i M D d b Connector MO > - a_.m=.sn _ 2 [_ mp ' TRACE ; _ _ $397y .g pg C -- - ' ' ~[y^ Contact _ Immersion Nonfocused I'
~ ~
I Water Path b Spherical Target /b f .X ~ Cylindrical TRAC E s c - - . IJ Relative Sensitivity kk dB Energy Setting O Impedance $ b TRACE i III ( Peak or Center Frequency - MHz E' 77 Inspector 3b Date )-k-b c D E F """" Testing Procedure The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (*:sarplats) transducers are tested on a flat steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer
- k. Dual contact transducere are tested on a flat polymer block unless otherwise ified. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the q line.
Nonfocused imersion transducers are tested in vetor over a flat steel plate using o er path as specified above. Focused ire,ersion transducers are tested the sas,t as nontocused transducers except that the water path used !s equal to the actual focal length. Using an AER0 TECH Vltrasonic Transducer Analyzer, Model UTA-4, and a Tektronix 7L12 frequency spectrum analyzer in u 7704A Mainframe, the real time waveform, UTA-4 gate signal, and the frequency spectrum of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receivar, the amplitude of the real time waveforn is adjusted to a six centicieter amplitude ( 1 dB) on the CRT. With the vertical calibration of Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson. Real Time Wavefom - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration
- respectively for Trace II.
Cata Marker - Trace I Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for Trace I is the same as that for Trace II. The portion of Trace II that falls within.the gate time. period is the signal fed to the frequency spectrum analyzer. Frequency Spectnam - Trace III Screen writing figure E provides the horizontal calibration for Trace III. Figures B and ow the spectrum analyzer's attenuator and resolution settings respectively. KRAUTKRAMER BRANSON P. O. Box 350 Lewistown, PA 17044 i m----_-_, _ - _ _ _ __ _ _ _ . , , _ _ _ _ _ . - _ _ _ _ - . - - , - - _ . _ _ _ - - . _ _ _ - -_ _ _
i TRANSDUCEI CERTIFICATION 057 l Transducer Description j, h p . . W .~i M.Q
- s.rt.sb Amm A sa SOM,W dgtye
~", a ~ .j:.gf W. .. -
Osu.ney - 5. & Maz stre .TO ~ S' 's N Connector b Od__ TnACE l hContact ] Imersion Nonfocused I Water Path [M Spherical l Target
. S o " S h L [ Cylindrical TRACE II !
Relative Sensitivity .N dB { I Energy Setting M Impedance S TRACE _ III g, . e j heakor - Center Frequency N.)MHz
-aws s.u Inspector O Date 34&
C D E F ' " " " " ' Tnsting Procedure The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a fint steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer bl.ock. Dual contact transducers are tested on a flat polymer block unless otherwise bified. Delay fingertip removable (Style DTR) transducers are tested off of the tip of the my line. Nonfocused imersion transducers are tested in water over a flat steel plate using n[ ne path as specified above. Focused imersion transducers are tested the sane as nt. cused transducers except that the water path used is equal to the actus1 focal length. Using an AER0 TECH Ultrasonic Transducer Analyzer, Hodal UTA. 4. sad a Tektronix 7L12 f requency spectrum analyzer in a 770AA Mainframe, the real time waveform, UTA-4 gate signal, and the frequency spectrum of the Sated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time waveform is adjusted to a six centimeter amplitude (t 1 dB) on the CRI. With the vertical calibration of Trace II fixed at 100 millivolts per division, the amsunt of attenuation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson. Ron1 Time Waveform - Trace II Screen writing figures A and T provide the vertical and horizontal screen calibration respectively for Trace II. Cate Marker - Trace I Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for Trace I is the same as that for Trace II. The portion of Trace II that falls within the gate time period is the signal fed to the frequency spectrum analyzer. Frequency Spectrum - Trace III Screen writing figure E provides the horizontal calibration for Trace III. Figures B and D show the spectrum analyzer's attenuator and resolution settings respectively. KRAUTKRAMER BRANSON P. O. Bor 350 Lewistown, PA 17044 1
TRANSDUCER CERTIFICATION 058._,e Transducer Deseriotion - ,
.p Q ; -j'[ Q -g... g q ? y O "Jr. , fdh .
le jMA 8/N _ b@ bel l ,,. 4.o 9,p gy ,y, :)33 y_ Frequency O . N MHz Size 3h , Connector hb TEACE l4
- - g j Contact Innersion Nonfocused I
, 4 { {
Water Path AN ~ Spherical Target - 3.& sbl 2 Cylindrical TRACE ~ i II ' Relative Sensitivity bh dB Energy Setting N Impedance M D TRACE
~
peak or Center Frequency OMMHz l Inspector Date 3 - N -b C~ D E F Testint Procedure The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a flat steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer
- k. Dual contact transducers are tested on a flat polymer block unless otherwise ified.
av line. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the a Nonfocused irnersion transducers are tested ir. water over a flat steel plate using e path as specified above. Focused incersion transducers are tested the same as n. aused transducers except that the water path used is equal to the actual focal length. Using an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a Tektronbe 7L12 f requency spectrum analyzer in a 7704A Mainframe, the real time waveform. UTA-4 gate sigral, and the frequency spectrum of the 3,ated signal are simultaneously displayed and photographed.
- Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time waveform is adjusted to a six centimeter amplitude (i 1 dB) on the CRT. With the vertical calibration of Trace II fixed at 100 millivolts per division, the cmount of attenuation used provides a relative censitivity rating for all transducers certified by Krautkraner Branson.
Real Time Waveform - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for Trace II.
! Cate Marker - Trace I j
Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for Trace I is the same as that for Trace II. The portion of Trace II that falls within the gate time period is the signal fed to the frequency spectrum analyzer. Frecuency Spectrun - Trace III D Screen writing figure E provides the horizontal calibration for Trace III. Figures B and tow the spectrun analyzer's attenuator and resolution settings respectively. KRAUTKRAMER BRANSON P. O. Box 350 Lewistown, PA 17044 I
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TRAWSDUCER CERTIFICATJ,91 Transducer Descriptien 059 les f4 m m A S/W blD35 A B
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Fr quency M K MHz Size ,5no 7
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1 bM@ Connector _800 - TRACE Contact ] Irraersion Nonfocused I Water path iM ~ Spherical A t '
/ T 'I f X Target Cylindrical TRACE -
Relative Sensitivity dB 's h Energy Setting O Impedance So TRACE III O Peak or Center FrequencyCh./ MHz - h . 2, ,,,,J,R12, Kk,, ,Ss,, Inspector b Date l " ~$O ' yh, . C D E F TestinR Procedure The real time wavefom shown in the photo above is the first return echo fro:n a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a At steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer i k. Dual contact transducers are tested on a flat polymer block unless otherwise sy ified. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the d, line. Nonfocused imersion transducers are tested in water over a flat steel plate using a _,er path as specified above. Focused immersion transducers are tested the same as nonfocused trensducers except that the water path used is equal to the actual focal length. Using an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a Tektronix 7LI2 frequency spectrum s.nalyzer in n 7704A Mainframe, the real tims waveform UTA-a gate signal, and the frequency spectrum of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time wavefom is adjusted to a six centimeter amplitude (! I dB) on the CRT. With the vertical calibration of Trace II fixed at 100 millivolts per division, the amount of attenustion usod provides a 1 relative sensitivity rating for all transducers certified by Krautkramer Branson. Feal Time Wavefom - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for Trace II. Cate Marker - Trace I 2 Screen writing figu:e C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for Trace I is the same as that for Trace 4 II. The portion of T 2e; 1T ths*. f alls within the gate time period is the signal fed to the frequency spectrum analyzer. Precuency Spectrum - Trace III Screen writing figure E provides the horltontal calibration for Trace III. Figures B and I Ow the spectrum analyzer's attenuator and resolution settings respectively. XRAUTKRAMER BRANSON
- 5. O. Box 350 Lewistown, PA 17044
\ 5 .j , TRANSDUCER CERTIFICATION YM 1 l l'
. n . ,. t . - -
Transduear Descristien - t M. ' qq. V!.W -
,1.. b m m A ses 3133L/.2 ,
2 ._ _.._ m.
,qu.ncy o .R T uns sti. ,3 X l .O '
d l1 6 bd- ~ e Connector , TRACE QContact { Issnersion Nonfocused 1 ----e Water Path @ Spherical Target / 7_A ]CylindricalTRACE a II Relative Sensitivity o dB , M ' ~ Energy Setting Impedanc. 50 TaAC: f haakor[CenterFrequency / MHz Inspector Date /~Db '
)
I C D E F i Testint Procedure ! The real time waveform shown in the photo above is the first return echo froo a reflector i selected with respect to transducer type. All contset (wearplate) transducers are tested on a t steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer ' ik. Dual contact transducers are tasted on a flat polymer block unless othetvise l ified. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the 1 y line. Nonfocused imersion transducers are tested in water over a flat steel plate using r.er path as specified above. Focused imersion transducers are tested the same at nonfocused transducers except that the water path used is equal to the actual foesi length. i Using an AEROTECH Ultrasonic Transducer Analyzer, Model UTA-4, and a Tektronix 7L12 frequency spectrum analyzer in a 7704A Mainframo, the reti time waveform, UTA-4 gate signal, and the frequency spectrum of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real. time waveform is adjusted to a six centimeter amplitude ( 1 dB) on the CRT. With the vertical calibration of Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson. Real Time Wavefom - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for Trace II. Cate Marker - Trace I , Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequenttal figure. The horizontal calibration for Trace I is the same as that for Trace II. The portion of Trace II that falls within the gate time period is the signal fed to the j frequency spectrum analyzer. Frequency Spectrum - Trace III Screen writing figure E provides the horizontal calibration for Trace III. Figures B and now the spectrum analyzer's attenuator and resolution settings respectively. KRAUTKRAMER BRANSON P. O. Box 350 Lewistown, PA 17044 i l w-.-..___-_.--.--.-.-_-__--_.__..__.-
T^' i' E +- k.) M'd. 7BANSDUCEI CERTIFICATIOR
.- v; igW7;V . "
I'." & w n ' s R. W .4 ;-FL W
- M Y r s S/N b l) .__
3_ _ , , F requency M cD MHz Site ,MS -
.e Connector WO c-- --
= - -
TRACE ' ' [ Contact Imersion Nonfocused I '__ ' Water path M Spherical ! . Target 3.6 %f L _ Cylindetcai TRACE 's, pp N: Relative Sensitivity bb dB -
?, )
Energy Setting 4 In:pedance S$b TRACE ' III b eak or Center Frequency h b MHz O Inspector Date N ~ b
- Testinr. procedure C D E F The real time wavefom shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a atek.
steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer Dual contact transducers are tested on a flat polymer block unless otherwise r -ified. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the ( ' line. Wonfocused imersion transducers are tested in water over a flat steel plate using a ..ter path as specified above. Focused imersion transducers are testod the same ss nonfocused transducers except that the water path used is equal to the actual focal. length. Using an AER0 TECH Ultrasonic Transducer Ar.alyzer, Model UTA-4, and a Tektronix 7L12 frequency spectrum ar.alyzer in a 7704A Mainframe, the real time wavefom, UTA-4 gate signal, and the frequency spectrum of the gated signal are simultaneously displayed and photcgraphed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time wavefom is adjusted to a six centimeter amplitude (i 1 dB) on the CRT. With the vertical calibration of Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson. Real Time Wavefom - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for Trace II. Cate Marker - Trace I
' Screen writing inconsequential figure C provides the vertical amplitude of the gate marker and is an figure.
II. The horizontal calibration for Trace I is the same as that for Trace The portion of Trace II that falls within the gate time period is the signal fed to the f requency spectrun analyzer. Precuency Spectrum - Trace III . a screen writing figure E provides the horizontal calibration for Trace III. Figures B and ow the spectrum analyzer's attenuator and resolution settings respectively. KRAUTKRAMER BRANSON
- p. O. Box 350 Lewistown, PA 17044
. _ ~ _ . _ _ _ _ . _ _ . . _ . _ _ _ _ _ .
TRAESDUCER CERTIFICATION Transducer Description QGg le[%mMAHP:n E08438 _ i = quency 5.C MHz Sire .SD ' j gp - p h Connector Wb ; 'ig,y#-N b .*t') h kt.'O. M N, hat'Y Contact Imersion Wonfocused TRACE, 7 &f.)-Qylq .f7 .-;,;}e y_ Q y' .;;; y
, . ;g ;- - a . c . - <M jE .. .y. 7 L .~ . . ; _ -(- . ;
kN Spherical
, < < . . . ENk Water path H I q .' ,;
O . I.3;. .S\
. - , . . 5,. : -
- t. . % ..; ; c ..re
,3 ^ S T E L VYE' 4
Target Cylindrical TRACE II ' - 4 4 pen %.g.(.
<: 2, y; Inspector Yh Date /M'b ~
+ -9
~'
4 ,' S"1 . v 3 c ' C D E F Testint procedure a ut The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a , t steel (4340) plate while epoxy-f aced shear wave transducers are tested on a flat polymer
- k. Dual contact transducers are tested on a flat polymer block unless otherwise cified. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the y line. Wonfocused imersion transducer # are tested in water over a fist steel plate using a er path as specified above. Focused imersica transducers are tested the same se nonfocused transducers except that the water path used is equal to tho actual focal length.
Using an AER0 TECH Ult'rasonic Transducer Analyzer, Model UTA-4, and a Tektronix 7L12 frequency spectrum analyzer in a 7704A Mainframe, the real time waynform. UTA-4 sate signal, and the frequency spectrus of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of '.he real tinae waveform is adjusted to a six ceni;1 meter amplitude (i 1 dB) on the CRT. With the verticel calibration of Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson. Real Time Waveform - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for Trace II. Gate Marker - Trace I screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for Trace I is th,e same as that for Trace II. The portion of Trace II that falls within the gate time period is the signal fed to the frequancy spectrum analyser.
- Freciuency Spectrum - Trace III
.u . . ' ..- .-
Screen writing figure I provides the horizontal calibration for Trace III. Figures B and ow the spectrum analyzer's attenuator and resolution settings respectively.
'1 e
w .} -) ' ' Q.f$$W',6 '. *
. ' q, ; y e- h.. 6 -
- p. t., .va:v.:;;(>-..-
'~., . ERAMg4 paANSON - -
,y Lewistown,PA UO44
A 8 Transducer Descriplig 5efie5 ['M DM ). ._ - -- . . .. -_-_ I TRACE l i Frequency M >'__MHz Size . M _ , j ial No. M /f_Q M _ _ _ _,___ f 'ontact O Imersion 8 Nonfocused Water Path O Spherical _ , 0 Cylindrical TRACE I' Style f R Connector j)fy C. I1 I Relative Sensitivity $_ DB Energy Setting _ @ Impedance I C /2_ TPACE Inspector M/ Dat e ,3 - 3,-1 I l l T e_s_t i_n_g_P_r oc e du re p The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact , (wearplate) transducers are tested on a 1.0" flat steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer block. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the delay line. Nonfocused i nersion transducers are tested in water over a flat steel plate using a water path as specified above. Focused imersion transducers are tested tne same as nonfocused transducers except that the er path used is equal to the actual focal length. i l' ' sing an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a ' 1 onix 7L12 frequency spectrum analyzer in a 7704A Mainframe, the real time waveform, UTA-4 gate signal, and the frequency spectrum of the gated signal l are simultaneously displayed and photographed. Using the linear attenuator in
- the UTA-4 receive , the amplitude of the real time waveform is adjusted t'> a ,
- six centimeter amplitude (+ 1 db) on the CRT. With the vertical calibration I
of trace !! fixed at 100 millivolts per division, the amount of attenutation used provides a relatise sensi',ivity rating for all transducers certified by Krautkramer Branson. Real Time Wavefor,m - Trace 11 ! Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for trace 11. Gate Marker - Trace I Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for trace I is
, the same as that for trace II. The portion of trace 11 that falls within the
! gate time period is the signal f ed to the f requency spectrum analyzer. i Frequency Spectr_un - Trace !!! l Screen writing figure E provides the horizontal calibration for trace Ill. i : es B and D show the spectrum analyzer's attenuator and resolution ss..ings respectively. j P. O. Box 350 Leaistown, PA 17044 l
Transducer Description ^ 064 -. Series gamma . .
~
~
TRACE ::auuumuumDEE:::C uency A D y MHz Size . t o I ..- s - i
- al No. F/oM 79 ,h
~
{ s ( Mntact C) Imersion (23. Nonfocused ,
' j ,
Water Patha Spherical y - I O Cylindrical TRACE ( I Style Connector ,f MO
^ '
II : ; ' Relative Sensitivity .5 d DB ;'~ - i a , ;, : d 9 l'}.. Energy Setting O Impedance Sd_/L - i
^ i l i TPACE inspector Ak Date 7-J /- E3 III )
i l l Testing Procedure C D E F The real time waveform shown in the photo above is the first return echo , from a reflector selected with respect to transducer type. All contact l (wearplate) transducers are tested on a 1.0" flat steel (4340) plate while i epoxy-faced shear wave transducers are tested on a flat polymer block. Delay i fingertip removable (Style DFR) transducers are tested off of the tip of the l delay line. Nonfocused immersion transducers are tested in water over a flat l steel plate using a water path as specified above. Focused imersion l transducers are tested the same as nonfocused transducers except that the ) r path used is equal to the actual focal length, l
'Ising an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a ,
> nix 7L12 frequency spectrum analyzer in a 7704A Meinframe, the real time w .,..orm, UTA-4 gate signal, and the f requency spectrum of the gated signal
- are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time waveform is adjusted to a six centimeter amplitude (+ 1 db) on the CRT. With the vertical calibration of trace !! fixed at 100 millivolts per division, the amount of attenutation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson.
Rsal Time Waveform - Trace !! ! Screen writing figures A and F provide the vertical and horizontal screen l calibration respectively for trace II. Gate Marker - Trace I , Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for trace I is the same as that for trace II. The portion of trace !! that falls within the gate time period is the signal fed to the frequency spectrum analyzer. Frequency Spectr_un! - Trace III Screen writing figure E provides the horizontal calibration for trace III. F' es B and D show the spectrum analyzer's attenuator and resolution s .gs respectively, t,, gg., g .ygg, KRAUTKRAMER BRANSON P.* 0. Box 350 Lewistown, PA 17044
Transducer Description A B 065s , I l - % 1:chs .% Series @AmmA j T
~'
TRACE l quency Cc) MHz Size. 3 7 ( I t .. s - , ria1 No. $./(,3)(s . r
;;- + ,
j ontact [] Imersion Q Nonfocused
$nrfcal 9- -
1 Style P Connector /51C $ d Relative Sensitivity SP DB
- I Energy Setting O Impedance fo A ,
TPACE Inspector /7/R Date N / ,](J III Testing Procedure The real time waveform shown in the photo above is the first return echo i from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a 1.0" flat steel (4340) plate while epoxy-faced shear wave transducers are testec on a flat polymer block. Delay fingertip removable (5tyle DFR) transducers are tested off of the tip of the 1 delay line. Nonfocused innersion transducers are tested in water over a flat steel plate using a water path as specified above. Focused immersion nsducers are tested the same as nonfocused transducers except that the Oer path used is equal to the actual focal length. 4 (.tsinganAER0TECHUltrasonicTransducerAnalyzer,ModelUTA-4,anda onix 7L12 frequency spectrum analyzer in a 7704A Mainframe, the real time waveform, UTA-4 gate signal, and the frequency spectrum of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time waveform is adjusted to a six centimeter amplitude (+ 1 db) on the CRT. With the vertical calibration of trace Il fixed at 100 millivolts per division, the amount of attenutation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson. Real Time Waveform - Trace 11 Screen wrHing figures A and F provide the vertical and horizontal screen calibration respectively for trace II. Gat,e_ Marker - Trace ! Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for trace I is the same as that for trace II. The portion of trace 11 that falls within the gate time period is the signal fed to the frequency spectrum analyzer. requency, Spectrum - Trace III Screen writing figure E provides the horizontal calfbration for trace !!!. 1 es B and 0 show the spectrum analyzer's attenuator and resolution s ings respectively. KRAUTKRMER BRANSON P. O. Box 350 W W ?.W 000- % lewistown, PA 17044 ,
.-. - - - - - - . _ . - ____________ _ - - - _ l _
l l TRANSDUCER CERTIFICAngs
'. 066 i l
Transducer Description h l WhM S/W hIbbc)Q & dm .8 V " CLeFr;equency .b. b
- i. ,.p' .
MHz Size n3 s h . Connector Db < . - - --- - Contact { Immersion Nonfocused ,_ J Water Path M Spherical 1
.~
Target 3.o" Wrl CCyundrical TRACE l h Relative Sensitivity bk dB l r i Energy Setting _ b Impedance eMO TRACE !
,/ i: * ,
III - '~~ 7 peak or Center Frequency MHz O W
- - ~ ~ -
. JW2 EES 1W1 ~W -
Inspector Date A R-T A ' i I
! C D E """'""
F . ,,- Testing procedure The real time wavefom shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a flat steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer hk. Dual contact transducers are tested on' a flat jolrner block unless otherwise
/cified. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the )
- line. Nonfocused imersion transducers are tested in water over a flat stal plate using l t
.er path as specified above. Focused immersion transducers are tested the same as nonfocused transducers except that the water path used is equal to the actual focal length.
' l 5 Using an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4. and a Tektro..ix 7L12 3 frequency spectrum analyzer in a 7704A Mainframe, the real time wavefor1n, UTA-A gate signal. { and the frequency spectrum of the gated signal are simultaneously displayed and photographed. l
'Jsing the linear attenuator in the UTA-4 receiver, the amplituds of the real time waveform is !
adjusted to a six centimeter artplitude ( 1 dB) on the CRT. With the vertirai calibration of Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a i relative sensitivity rating for all transducers certified by Krautkramar Branson, l Real Time Wavefom - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for Trace II. Cate Marker - Trace I ' Screen writing figure C provides the vertical amplitude of the gate. marker and is an l inconsequential figure. The horizontal calibration for Trace I is the same as that for Trace l II. The portion of Trace II that falls within the gate time period is the signal fed to the ' frequency spectrum analyzer. Frequency Spectrum - Trace III ' Screen writing figure E provides the horizontal calibration for Trace III. Figures B and w the spectrum analyzer's attenuator and resolution settings respectiv417 KRAUTKRAMER B".ANSON j P. O. Box 350 I Lewistown, PA 17044 n-,---.,-._,--.--_-,_-.wn.m.-- -e,__v _ve-,-w-w+,-~~v
067 fransducer Description , 8. q . . -
" ~
Oma [ --
#w[ M ~ ~ Db. 7 a.[ ' v Serias l .. ' ' l -
~
l* 9'u4 M Y., 1)f _ME2* g U 0sent dimensions . 3 f _ in . ' A - tyle - Connector type TRACE b 4I . N N 7.L ' ASW5 - Ao - j .. . l l l : a..a1 Type:CED Nonfocused I f ! t
' Spherical
'Cylir.drical
'4
- s. /
l }l f, i M CE '
- . .. . r. e. 'i v'm . II .
4 k4 - -
- 1. :
$arial Number nem i
} ., - l Relative sensitivity rating TRACE 7- ' e. 7- I
-- 3( db III
_L. . L .L , Ins p e e t o r,,,,,,,_ M-
..r -
- r Qete (.}Dh1 ~
Tasting Procedure , 'The real time vavi torm shown in the photo above is the first return echo free a reflector selected with respect to transducer type. All contact (vaarplate) transducers are tested on a flat steel piste, while epory-faced shaar wave transducers are tested on a flat poly =er block. Delay fiigertip removable (Style DTR) transducers are tested off - of the tip of the delay line. Nonfocused innersion trhasducers are tested in water over lat steel plate using a water path as specified abows., Focused fammersion transducers tested the same as confocused transducers except that the water path used is equal
- .he actual focal length. .
9, Osing a K3-AER0 TECH Ultrasonic Transducer Analyser, Mejel UTA-3, and a Tektroniz 71.12 ency npectrv= analyzer in a 7704A Mainf rama, the rnal time waveferin, UTA-3 gate N 1, and the frequency spectrum of the gated signal are simultaneously displayed and ph6tographed. Using the linear attennetor in the CTA-3 receiver, the amplitude of the real time waveform is adjusted to a six centimeter amplitude Q 1 db) on the CRT. With the vertical calibratica of trace II fixed at 50 mil 11 volts per division, the anount of attenutation by D-AIROIEC*d. used prevades a relative sensitivity rating for all transducers certified Real Time Vave fog, - Trace II Screen vriting figures A and ? provide 1he vertical and horizontal screen calibration respectively for trace II. - Cate Marker - Trace I Screen vriting figure C provides the vertical amplitude of the gate marker cad is an inconsequential figure. The horizontal calibration for trace I is the sano as that for trace II. The portion of trace II that falls within the gate time period is the signal fed to the frequency spectna analyser. . Frequenev _ Spectrum - Trace III screen writing figure E provides the horizontal calibration for trace III. Figures 3 and D show the spectrum analyzer's attenuator and resolution settings respectively. KB-AIROTECI .
# Transducer Technology Center P.O. Box 350 1,evistown, PA 17044
': A 8 068 1ransducerDescription s '
- vvs+: e. ahd.iGW Series w. .mwA Hf . y .m, .
TRACE '4 quency AGS MHz Size L o " I . _' y e t al No. C90 ') 3 f l A g . l [ )ntact O Imersion 3 Nonfocused i Water Patha Spherical *, g O Cylindrica ..
-u Style CQ Connector BA/t' II _~ .
4 Relative Sensitivity _ d 3 _ _.013 ' . ,; ' _I Energy Setting .O ~
?mpedancea SO n. 'S Y
. b .' i ' .;-
TRACE - Inspector /1/A date */- 9.f- yy !!! Testing Procedure C D E F The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact' (wearplate) transducers are tested on a 1.0" flat steel (4340) plate while epoxy-f aced shear wave transc:ucers are tested on a flat polymer block. Delay fingertip removable (Style DJR) transducers are tested off of the tip of the delay line. Nonfocused immersion transducers are tested in water over a flat steel plate using a wate' path as specified above. Focused imersion an,ducers are tested the same as nonfocused transducers except that the ter path used is equal to the actual focal length, frutronix ssing an AER0 TECH Ultra' ionic Transducer Analy:er, Model UTA-4, and a 7L12 freauency spectrum analyzer in a 7704A Mainframe, the real time waveform, UTA-4 gati: sigr.al, and the frequency spectrum of the gated signal are simultaneoaiy dispayed and photographed. Using the linear attenuator in 4the UTA-4 receiaer, the amplitude of the real time waveform is adjusted to a
+ 1 db) on the CRT. With the vertical calibration
'six gf t cer racetimete;
'Il . irec'amplitude at 100 m (illivolts per division, the amount of attenutation ned provides a relative f.ensitivity rating for all transducers certified by KrautkrarNr Bransm Real, Time Wavefdrm '- Trar.c II
- Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for trace II.
- Gate Marker - Icsee I Scrten writir,9 figare C provides the vartical amplitude of the gate marker and is u ince..sequ ntial figure. The horizontal calibration for trace I is the same a. thaO for trace II. The portion of trace 11 that falls *.ithin the gata time pviod is the signal fed to the frequency spectrum arealyzer.
/
,eguency Spectrua - Trace III Screen writing figure E provides the horizontal calibration for trace 111.
1 4res B and a show the spectrum analyzer's attenuator and resolution i m tings respectively. '
,j
, KRAUTKRAMER BRANSON MW llY U 7 -c40
- P. O. Box 350
- Lewistown, PA 17044 kdl.) CMt
I
^ 6 Transducer Description 069-.
Series M e m A HP -
- ,, TRACE .- . ,
quency d,25 MHz Size _fj) 1 .
. r
+ial No. h73 / 3 4
, F f, , ,I '
g ntact O Imersion g Nonfocused .. Water Path a Spherical O Cylindrical
, ./ } -
TRACE l 9 Style C /Q Connector A N C. 11 Relative Sensitivity _ 63 DB i - Energy setting c7 Impedance @rcus TRACE J Inspector M)K Date 7-G /-r 3 11! T,esting Procedure D E F The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a 1.0" flat steel (4340) plate while epoxy-faced shear wave transducers are tested on a flat polymer block. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the delay line. Nonfocused imersion transducers are tested in water over a flat steel plate using a water path as specified above. Focused imersion
.nsducers are tested the same as nonfocused transducers except that the
*er path used is equal to the actual focal length.
[ ' sing an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a
; k conix 7L12 frequency spectrum analyzer in a 7704A Mainframe, the real time waveform, UTA-4 gate signal, and the frequency spectrum of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of tne real time waveform is adjusted to a !' six centimeter amplitude (+ 1 db) on the CRT. With the vertical calibration of trace 11 fixed at 100 millivolts per division, the amount of attenutation
, used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson.
- Real Time Waveform - Trace 11
, Screen writing figures A and F provide the vertical and horizontal screen , calibration respectively for trace 11. i Gate Marker - Trace I Screen writing figure C provides the vertical amplitude of the gate marker and is an inconsequential figure. The horizontal calibration for trace I is the same as that for trace 11. The portion of trace 11 that falls within the ] gate time period is the signal fed to the frequency spectrum analyzer, equency Spectrum - Trace 111 1 Screen writing figure E provides the horizontal calibration for trace 111. ! .es B and 0 show the spectrum analyzer's attenuator and resolution se6 tings respectively. KRAUTKRAMER BRANSON Mookh ' 115-242-04 o ~TP.q i P. O. Box 350 Lewistown, PA 17044 AWA 44.56 c
A B I Transducer Descrir' ion , ' ' '^ Series (7AmmA - TPACE - requency /.O MHz Size # 3
" - A serial No. NOD 53 _ ___ J-S '
Contact O Imersion []D Nonfocused ( . , Water Patha Spherical
~
O Cylindrical
/
- s ree l TRACE Style CM Connector Avr 11 ,
Relative Sensitivity S/ DB i A\
; Energy Setting est ImpedanceJ 50a TP, ACE
" g/
l , j Inspector __ rJE Date ?-09-(3 Ill __
~
Testing Procedure ' C D E F The real time waveform shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact
- (wearplate) transducers are tested on a 1.0" flat steel (4340) plate while i
epoxy-faced shear wave transducers are tested on a flat polymer block. Delay .. i fingertip removable (Style OFR) transducers are tested off of the tip of the j l delay line. Nonfocused imersion transducers are tested in water over a flat j steel plate using a water path as specified above. Focused immersion
- ansducers are tested the same as nonfocused transducers except that the i
ter path used is equal to the actual focal length, i Using an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a i (.tronix7L12frequencyspectrumanalyzerina7704AMainframe,therealtime i
- waveform, UTA-4 gate signal, and the frequency spectrum of the gated signal are simultaneously displayed and photographed. Using the linear attenuator in the UTA-4 receiver, the amplitude of the real time waveform is adjusted to a
, six centimeter amplitude (+ 1 db) on the CRT. With the vertical calibration of trace 11 fixed at 100 millivolts per division, the amount of attenutation used provides a relative sensitivity rating for all transducers certified by Krautkramer Branson.
Real Time Waveform - Trace !! i Screen writing figures A and F provide the vertici.1 and horizontal screen - calibration respectively for trace 11. Gate Marker - Trace I i i ' Screen writing figure C provides the' vertical amplitude of tr* gate marker and is an inconsequential figure. The horizontal calibration for trace ! is 1 the same as that for trace 11. The portion of trace 11 that falls wM hin the gate time period is the signal fed to the frequency spectrum analyzer. m requency Spectrum - Trace !!! - l Screen writing figure E provides the horizontal calibration for trace !!!.
! Jres B and 0 show the spectrum analyzer's attenuator and resolution
.ctings respectively.
KRAUTKRAMER BRANSON P. O. Box ,150 Lewistown, PA 17044 i
i TRANSDUCER _CERTIFICATIow 071 fransducer Description " N' ' l
- 3bAMMA S/N MOI 4/d___ A 5 -
a acy eQ M MHz Size 2 5 - ity 30$9 Connector M O_ ' -~~ s
- TRACE y/
. Contact Immersion Nonfocused I - ' 8 A y =
y q.'. s'ater rath AM - Spherical
' ~
,~ * ,
*arget / h ib Cylindrical TRACE Il
- j.
~
~
Relative Sensitivity N dB '. g - Energy Setting O Impedance 50 TRACE
~
N III peak or Center Frequency 4 . 3 MHz -
+ bel P: 5 QFl DJ h -
.nspector N_b Date /d - / / h ,
~
C D E F j ..estinr. procedure , The real time wavefem shown in the photo above is the first return echo f rom a reflector ! : elected with respect to transducer type. All contact (wearplate) transducers are tested on a f* Steel (4340) plate dile epoxy-faced shear wave transdur.ers are tested on a flat polymer Dual contact transducers are tested on a flat polymer block unless otherwise O.. led.Delay fingertip removable (Style DFR) transducers are tested off of the tip of the de 5.n e . Nonfocused imersion transducers are tested in water over a flat steel plate using 3 . path as specified above. Focused imersion transducers are tested the same as nonfocusei transducers except that the water path used is equal to the ectual focal length. I Usin; an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a Tektronix 7L12
'requesy spectrum analyzer in a 7704A Mainframe, the real time waveform, UTA-4 gate signal.
.nd the f requency spectrum of the gated signal are simultaneously displayed and photographed.
Jsing the linear attenuator in the UTA-4 receiver, the a.tplitude of the real time waveforn is djusted to a six centimeter a=plitude ( 1 dB) on the CRT. With the vertical calibration of l Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a
. elative sensitivity rating for all transducers certified by Krautkramer Branson.
4
*eal Time Wavefern - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration I respectively for Trace II.
Jate Marker - Trace I l Screen writing figure C provides the vertical amplitude of the gate marker and is an i inconrequential figure. The horizontal calibration for Trace I is the same as that for Trace II. The r.ortion of Trace II that falls within the gate time period is the signal fed to the frequency spectrum analyzer. I Frequency Spectrum - Trace III ' 1creen writing figure E provides the horizontal calibration for Trace III. Figures B and 0thespectrumanalyzer'sattenuatorandresolutionsettingsrespectively. I KRAUTERAMER BRANSON P. O. Box 350 Lewistown, PA 17044
-, TRAFSDUCER C UTIFICATION
- -p~ !Q.ye,. .$h um @c,. .v Trans5u'etr Descristion ~.
.* ,w, . v,g - .J'dij"J@h:t,:
Som f,AmmA #174/7 072 ! 3 - s/s A
. . . . .c recqtl.ney 96 tc<s sise .K l l
S t) hN Connector RLT TuCx :. A c- = = i:\ < -?n hcontact { Imersion ] Wonfocused I - 1SA Spherical Water path y ( - .g Target / 9f ]CylindrieslTRACE - l. Relative sensitivity /3 dB ; " Energy Setting O Ic:pedance 5O TRACE i --
^
~ III
/ peak or Center Frequency S ) MHz Inspector IO Date /O ' l9 - b l
C D E F l Testinr. Procedure . The real time wavefo m. shown in the photo above is the first return echo from a reflector selected with respect to transducer type. All contact (wearplate) transducers are tested on a f1 steel (4340) plate while epoxy-f aced shear wave transducers are tested on a flat polymer l o . Dual contact transducers are tested on a flat polymer block unless otherwise j fled. Delay fingertip removable (Style DFR) transducers are tested off of the tip of the s 1e 'ine. Nonfocused imersion transducers are tested in water over a flat steel plate using l a path as specified above. Focused imersion transducers are tested the same as , nontw used transducers except that the water path used is equal to the actual focal length. > Using an AER0 TECH Ultrasonic Transducer Analyzer, Model UTA-4, and a Tektronix 7L12 1 f requency spectrum analyzer in a 7704A Mainf rame, the real time wavefom, UTA-4 gate signal, and the f requency spectrum of the gated signal are simultaneously displayed and photographed.
'Jsing the linear attenuator in the UTA-4 receiver, the amplitude of the real time wavefom is ;
I adjusted to a six centimeter arplitude (i 1 dB) on the CRT. With the vertical calibration of j Trace II fixed at 100 millivolts per division, the amount of attenuation used provides a I relative sensitivity rating for all transducers certified by Krautkraner Branson. l Feal Time Wavefom - Trace II Screen writing figures A and F provide the vertical and horizontal screen calibration respectively for Trace II. j Cate Marker - Trace I l 5creen writing figure C provides the vertical amplitude of the gate marker and is an incon,pequential figure. The horizontal calibration for Trace I is the same as that for Trace II. Yhe portion of Trace II that f alls within the gate time period is the signal fed to the frequency spectrum analyzer. PrecuenCY Spectrum - Trace III ' screen writing figure E provides the horizontal calibration for Trace III. Figures B and DOw the spectrum analyzer's attenuator and resolution settings respectively. l KRAUTKRAMER BRANSON
- p. O. Box 350 Lewistown, PA 17044
B-E 46 o smasmsmE [ PANAMETRICS => c=s== =n.-=.==ns =6.u n . === d 073
)
CONTACT TRANSDUCER ANALYSIS l Pos. No. / M ; _. Serial No. Orrf A., . Treguency cD . 2 s
- HH
- " by --
". Cable: R C- , lengts 1 ft. ;
Size: .C.?J~~ " diameter; Eche from back surface of: /.o " thick fused silica.
" thick lucite. ]
" thick polystyrene.
I TIST INSTRUNINTAT2ON Waveform 7 l Panametrics 5052(FR,C) Pulser and Cate i _
/ ana*e.m tries 5052UA or 5030A i S_ Fulser Receiver Settings:
P l Oscilloscope System Energy Setting / . Taktronix 7704A 7A26 Dual Trace Araplifier Rird diver At tenuation SY dB. with 7353A Dual Time Base Receiver Damping /S o chas, i 7L12 Spectrum Analyser Oscilloscope Settings: ( r frequency is determined by 1-Vartical Sensitivity /div. l C r' ,( ci plying the horizontal scan vidth 2. H:r t sontal Sweep Rate /div. > (Aj oy the number of divisions to the s pec t rum pe a k.
, , s S pec trum Analysis
< 3-Sca1e Tormat.
gfy,gg r7 p 9 r, . . . . . flig g g ' 4-Horizontal Scan Vidth/div. Mb hkh f 5-Resolution. 6-Input At tenuation. .
- t ) .
hbbk[. ' - li Teewnician M-gg I
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WESTINGHOUSE NUCLEAR SERVICE DIVISION INSPECTION SERVICES 07A' ULTRASONIC EQUIPMENT (INSTRUMENTS)
, PLANT J.M.FARLEY UNIT II YUR l907 INSTRUMENT NO. MANUFACTURER MODEL SERIAL NO.
1 SONIC MARK I 05941E 2 SONIC MARK I 06208E- 7 3 SONIC MARK I 08078E 4 SONIC MARK I 08683E-5 SONIC MARK I 11222E 6 SONIC MARK I ll223E O
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i l l ULTRASONIC INSTRUMENTATION DATA SHEET 076 VERTICAL LINEARITY l
"A" "B" i to .
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to ~(((( kO /,// l 9 92 i.or 8 74 /.08 7 45 /.07 6
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9 8 8+9 0 1 2 3 4 5 INSTRUME NT: MFR. ##O M OD E'. MM#M I 3/N O I 9 M / # TR ANSDUC E R : MFR, E/878CM SIZE /* d FREG.d28AWA S/N do28/IM TEST PERFORMED BY w v-w* - REVIEWED BY v M slel!F y - ( LINE ARITY IS: ACCE PT AB LE UN ACCE PT AB L E DATE /8* I* # 7 REMARKS: ) I l F..
ULTRASONIC INSTRUMENTATION DATA SHEET 077 HORIZONTAL LINEARITY ' Q* 10
/ /
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8 A
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N / 2 Q /, i 1 2 3 4 6 6 7 8 9 10 I VERTICAL GRATICULE LINE l INSTRUME NT: MFR. 8dd/r MODEL NA## I S/N ' d#I Y/ # TRANSDUCER: MFR. YMA Tft*N SIZE l* O " FREO.A.2f k M LglNLa M/M A W A- E REVIEWED BY,h - I ,A TEST PERFORMED BY -
% LINE ARIT Y 15: hACCEPTABLE b UNACCEPTABLE DATE /O *I* II REMARKS: l l
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ULTRASONIC INSTRUMENTATION DATA SHEET 079 O "A" ve aca"'~ ^a'
"B" 10 10 9.4 1.35 9 b* j . ] (,
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,7 /.4a 9 8 8+9 0 1 2 3 4 6 INSTRUMENT; MFR. O to C MODEL A8N 5/N 06AoSI TRANSDUCER: MFR. E d 07 E C SIZE !O [4 FREO.d- M Z- S/N 6073i3 a TEST rERFORMED By , -- e >
/2 REVIEWED BY A, ',' , T-
[ LINE ARITY t$: h ACCEPTABLE O uN ACCir1 AstE DATE 'e S S7 REMARK $: P49004 l l
ULTRASONIC INSTRUMENTATION DATA SHEET ~080 h v HORIZONTAL LINEARITY 10
/ /
/ /
B A / >
/ .
R / 5
/ ,
L / 4 / T /
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1 0 1 2 3 4 5 6 7 8 9 10 VERTICAL GRATICULE LINE INSTRUMENT: MFR. bONIL MODEL O#f w I S/N 0409I ; TR ANSDUCE R: MFR, bIROT lC H SIZE /.0 Die . PnEo 1 16 z s,u 6 o7 3 # 3n ; TEST PERFORMED BY '~
~ '
-- REVIEWED BY A >
(/ '/ f > LINE ARITY 15: bACCEPTABLE O u~ ACCEPTABLE oA1E ~ - r -> 7 REMARKS: F49006
ULTRASONIC INSTRUMENTATION DATA SHEET Q81 ATTENUATOR/ SENSITIVITY CONTROL 68 2 4 6 8 to 12 14 18 Id 20
""*' SO S/ S/ S*/ S/ S/ So' So So S/
de 22 24 26 28 30 32 34 36 38 40 IO [/ [/ 80 f/ 8/ 8d [O f/ 8/ dB 42 44 46 48 50 52 54 96 58 60
$l SO SO S/ S/ C/ S/ Sc 80 C6 i
INSTRUMENT: MFR. 804//C MODEL NMM I gm dfo 78 E TR ANSDUCE R: MFR. I f# d 7"F C N SIZE /O' FREO./E 8 N M S/N k 78/34 TEST PERFORMED BY ^> h REVIEWED BY b r bUr- I G-- LINE ARIT'? IS: h ACCEPTABLE UN ACCEPTAB LE DATE /o I-87 O REMARKS: P49005 l
ULTRASONIC INSTRUMENTATION DATA SHEET 082 VERTICAL LINEARITY "A" "8" 10 2,A /.2/ 9 74 l.2/ 8 4,S I.23 7 Sg /.20 8 50 l.Ao 5
#/ /.4/
O' x 43
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9 8 8+9 0 1 2 3 4 5 I INSTRUME NT: MFR. IdM/ MODEL UJ## I S *1 A8o 7EI-TR ANSDUCE R: M F R. M8#oT8CM SIZE /d # _ F R EO. J JfN#1 $/N ddhd /.E M - i TEST PERFORMED BY 1M #Z HEvlEWED BY -v AL-r 3 /MO b-- j [- LINE ARITY IS: bACCEPTABLE UN ACCE PT AB LE DATE /d* I* I 7 REMARK $: F 49004
J ULTRASONIC INSTRUMENTATION DATA SHEET 083 ! (] HORIZONTAL LINEARITY C/ 10
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N 3 / [FT. 2 C! I 1 2 3 4 5 6 7 8 9 10 VERTICAL GRATICULE LINE j i l l INSTRUMENT: MFR, 8d#/o MODEL MA# A' / $/N OIO 7E E TRAN;DVCER: M F R. M 8EM T#fN SIZE /. O ~ FREO.J.Jfh>2 $/N Mo74 A14-- Test PERFoRMEo ev # / E'I Nb v < E REviEwto avf LINE ARITY 4$: ACCEPTABLE UN ACCE PTAB LE oATE /M* f* U l l REMARKS:
ULTRASONIC INSTRUMENTATION DATA SHEET Q$4 CO ATTENUATOR/ SENSITIVITY CONTROL L d5 2 4 6 8 10 12 14 18 18 20 50 Y? $l Sl $d SC Yf SC Yf $0 os 22 24 M M 30 32 N M 38 40
#~ C/ S/
50 50 SO S/ SO SC S/ S/ A dB 42 44 46 48 to 82 54 56 58 60
$8 $d S/ $/ 8/ S/ $/ SC SO f/
i I INSTRUMENT: MFR. 8d2//8 MODEL M## I $/N OII EI[ TRANSDUCER: MFR, IE#M WCN SIZE /* O FREO f 8fN#2 Sm[d78/3M TEST PERFORMED BY ~ h* REVIEWED BY M* bY-( -r r
/8*#* #7 LINE ARITY is: h ACCEPTABLE UN ACCEPTAB LE DATE REMARKS: ,
l Patoos
ULTRASONIC INSTRUMENTATION DATA SHEET Q$$ ; r VERTK AL LINEARITY
**A "B" l 10 , ;
l ZS /.33
! i 4f l.82 e
4,2 l.29 7
$S' /.27 6
44 /.10 5 48 /.3/ 4
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,8 l.25 l 9 8 8+9 0 1 2 3 4 5 INSTRUMENT; MFR, 884//d MODEL MIJA'A# I S/N OfAE88 TRANSDUCER: M F R, E#A I8C M SIZE /O FREQ 2 88 E N N_ / M 73AI M TEST PE RF ORME D B Y -
y - r N-r REVIEWED BY y b d !,- y i LINE ARITY l$, h ACCEPTABLE Ou~ACCErTAStE oATi/e r er REMARKS F49004
ULTRASONIC INSTRUMENTATION DATA SHEET 086 V HORIZONTAL LINEARITY 10 -
/ /
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J 0 4 5 6 7 8 9 10 g 1 2 3 VERTICAL GRATICULE LINE i INSTRUME NT : MFR. ddA//O MODEL MM## I S/N O I TR ANSDUCE R: MFR. ##MT8CM ,. SIZ E AO" FREQ. 2MX"A.8/N dd78/#4 TEST PERFORMED SY W y'u REVIEWED BY A ^' r .I-g < LIN E ARITY is. bACCEPTABLE OUNACCE,T.<E o TE u-r #7 REMARK $ F49006 t
ULTRASONIC INSTRUMENTATION DATA SHEET 087 ATTENUATOR/ SENSITIVITY CONTROL O . de 2 4 6 8 10 12 14 18 18 20 49 49 49 Vf So 50 Co Co Co 49 d5 22 24 M 23 30 32 M M 38 40 So Co 49 So Y9 99 So V9 So~ So dB 42 44 46 48 50 52 54 56 58 60
$0 Yf $0 $o bd $D YV YQ Yf s
I l INSTRUMENT: M F R. 88A// C MODEL MN Z S/N !/ JEI TR ANSDUCE R: M F R. [IMI8f8 SIZE /* d #' FR ES MIN #E S/N dd78/34 TEST PERFORMED BY / REVIEWED BY AIA >AA r " c /- - LINE ARITY IS: b ACCEPTABLE O uNAcci,T48ti oATi /e r er REMARKS: 749005
ULTRASONIC INSTRUMENTATION DATA SHEET 088 O- vEericA< <lNE.el1v i .. 8-t 10 7C /. 33 9 4,9 /.30 m 4,2 I.A9 ___ 7 SG l.27 6
/
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.2 /.2S 9 8 8+9 0 1 2 3 4 5 INSTRUME NT: MFR, 8da//d googt MJM 7 5/N /MJJ E TR ANSDUC E R: WF R. E#o TEf N SIZE /* O ## FREO. #dIJfN2 5/N 6d7ESM TEST PERF ORME D B Y REVIEWED BY b IIv shM r
[ LINE ARITY 15: b ACCEPTABLE UN ACCE PT AB LE DATE /# * #* ## j REMARKS: ! F j , 49004
ULTRASONIC INSTRUMENTATION DATA SHEET 089 HORIZONTAL LINEARITY f] 10
* / /
/ /
l / A
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1 2 3 4 6 6 7 8 9 10 VERTICAL GRATICULE LINE l t pi IN37RUMENT: MP R, 88#/O MODEL MIM M I 3/N //OM I TRANSDUCER: MFR. Af#d 7*Et"N $1ZE /. d " FREQ./.JfMa.5/N Id 78/8M TEST PERFORMED BY _ W REVIEWED B A ,/'-/b E LINE ARITY l$: bACCEPTABLE UN ACCE PT AB LE DATE ##*I'#7 REMARKS: r F49006 i ., i
ULTRASONIC INSTRUMENTATION DATA SHEET 090 e. ATTENUATOR/ SENSITIVITY CONTROL ss i et 2 4 8 8 10 12 14 18 18 20 50 So El 50 El El S0 50 50 50 OS 22 24 26 28 30 32 34 36 38 40
^~
fl 50 50 So El SI 50 50 50 50 O( . d5 42 44 46 48 60 62 54 96 54 to
^~
50 [o 50 So Sb sb .51 56 31 50 INSTRUMENT: M F R, OM /b MODEL S/N TR ANSDUCE R: M F R. O S SIZE /d PRED b'2 5/N bO [! TEST PERFORMED BY N. M"> b
- W REVIEWED BY A I<' -- A lisNK C/ ( A LINE ARITY IS: bACCEPTABLE b UNACCEPTABLE *
- DATE R EM AR KS:
74000s
ULTRASONIC INSTRUMENTATION DATA SHEET 091 [ VERTICAL LINEARITY Gj ,,4~ 10 g
"5-to 7.9 /. z 6 ,
9 _2 2. ). 25 , e (o.4 f.25 , 7 0 lE$ g 6 V.9 / 22. , S 41 122. ,
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INSTRUMENT: MFR. MODEL S/N !22 TRANSDUCER: MFR,_ O b SIZE - FREQ.I'2 S!N60 73 //4 TEST PERFORMED BY REVIEWED B 1-8 !*/ G! [; / i LINE ARITY IS: ACCE PTAB LE O uNAccEPTA tE DATE/o N 7 REMARK $: _ - F 49004 l
ULTR ASONIC INSTRUMENTATION DATA SHEET 092 m 3 HORIZONTAL LINEARITY to
* / /
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1 2 3 4 6 6 7 8 9 to VERTICAL GRATICULE LINE sNsfnuutNr: vvn. SON IC uoDEt MARdY ,,N ll2 236 TRANSDUCER: MFR, O C SIZE d FREQ. 2 2 I 5/N M 7 3 // A TEST PERFORMED BY > - #1 >~ REVIEWED BY_ ! y - g r v LtNE ARIT Y 13 : ACCEPTABLE UN ACCE PT AB LE DATE. > REMARKS: P40006
CESTINGHOUSE NUCLEAR SERVICE DIVISION INSPECTION SERVICES 003 i i
- l s.
MAGNETIC PARTICLE EQUIPMENT l
. 1 s, etANT J.M.FARLEY UNIT II YEAM_ ISO 7 INSTMUMENT NO. MANUF ACTUR ER MODEL SERIAL NO.
10 POUND (.ALIBRATION BLOCK ULTRAVIOLET LIGHT INTENSITY METER CALIBRATION RECORD
]
, DIGITAL RADIOMETER CALIBRATION RECORD P.T.C. SURFACE THERMOMETER CALIBRATION RECORD
.p O i l 1 l 0 . l i
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OD4 [ i km srms - ! Westinghouse Water Reactor " Electric Corporation Divisions *'** 9 )*' l ' Box 2728~ Petste;;b Fevstina 15230 272a 3/' 1' ! 4 !
- h
- 1 1
t i l I CERTIFY THAT THIS METAL BLOCK SERIAL NUMBER NSG 0084 ' L d WEIGHED GREATER THAN 10 POUNDS THIS DATE I D bi .{$ eN* ON SCALE , [ T'wkL NUMBER 1%% t1 % M CALIBRATED IN ACCORDANCE WITH THE N.B.S. l I b : SIGNED - N k il 2M l i ASHFORD ALABAMA POST OFFICE l i ! i I l 1 l l I _ i i i f , b i 4
. . - - - . . - . , - - - - , - _ . , . . _ , , . . _ , _ _ _ _ - - _ _ . _ _ _ _ ___...._..-J
Revision: 13
'Pittsburgh Testing Laboratory Date : 3/10/82 Quality Control Procedure No. OC.,MT-1 Page : 1
/ FORM : CAL-UV-1
\ ATTACHMENT II 095 ULTRAVIOLET LIGHT INTENSITY METER CALIBRATION REC 6R_D Date Calibrated: /d
- 6 ~ b/
Equipment Identification No: 329/ 7 UV Meter
Description:
Mfg://27#d Nc/c7~ D&h%5Model No: 522/ Graduations: utgv# 1)(/c6 Serial No: 32 fN O Ot.her IF11ter Required) Sensitive to: 'hUVLightOnly - Calibration Procedure: IS-CAL-UV
- Calibration Frequency:' d ru s .
Calibration Standard: Type:jh-c7&lsAN~ NW/S/6 ^l Serial No: f/ 04 fI Date of Current NBS Traceab1": Calibration Record for Standard:.5hi'fd' Condition of Working UV Meter: Satisfactory 0 Unsatisfactory Calibration Data: Variation Porking UV Meter heading Standard Reading , 2 2 u watts /cm u watts /cm u watts /cm 2 i (A-B) O(. (A) (B) AS FOUND DATA
- 1. '7'/0 D *' .$ U l f ) _,
800 &O 800 C
- 2. fr CC ("t$" SCr+1E b AS ADJUSTED DATA C Not Applicable 0
kdC I. 800 _). . 4 P. _ , , 800 Meter Disposition Acceptab D Not Acceptable, FOR USE Calibrated by:/' /M d Lptation: 75 De Reviewed by(P Mgr/Supv):. " M ate: /d~d Recalibratio Due Date: _,! -MN O 1 1 v , - - _ , , _
^
s ?.l --~
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CERTIFICATC CAllBRATION O .
~
FO.a 57MdGife DMN-SERIES DIGITAL RADIOMETERS
~
N N ' METHOD OF CALIBRATION: N CUSTOMER WESTINciiGi1SE ELECTRIC CORPORATION (NSID) x .. N _ 1. This Digital Radlometer is calibrgted Dfalectrorgiity adjusting MODEL NO DM-365N SER!AL NO- 810088 the Instrument to read within % oLthat Standard Digital Tladiometat _ Serial s uo. gt2 Transfer when simQltaneotry exgn3Q Gr*lcal Irrad!ance levels. HUMIDITY 72% TEMPERATURE 78'F
- 2. The Transfer Standard Radlameter la compared and recalprsted,if nec'6sary, with respect to the Laser Precision K.L. October 9, 1986 Corporation Model RkP-545 Pyroelectric 6)duneter, Serial No.
CAllBRATED BY DATE lb6-t.97 Tills unit is r.wintained 19 the Spectronics Corporallon Metrology Laboratory. The Laser Precision CorJYation Modc! rip-545 Pacelectric 3. k' CAU51RATtON STANDARD -
- - PC'NT ' - READING DEVIATION % DEVIATION ' Madiometer was last caK' Msd at Laser Precir!on Cos3' oration's
- . laboratories or; Septemb Q 1986 METER CAllBRhTED l t.
l UNDERTESTSTANDARD Laser Precision Corporation certiflea that the s:andards that v.ere used In calibrailon: - [ ~ (1) have accuracles traceable to the National Bureau of Standards within the limitations of the Bureau's calibra-pWicm" pWlcms tien servicss,or (2) have ~ been derived from accepted values of natural p!.ydcal constants,c* A scale A scale : (3) have been derived by the ratio type of self+Mibralon techniques. 107.6 110 -2.4_ -2.2% B scale B scale ' 1480 1500 RECOMMENDED RECALIBRATION CYCLE
-20 -1.3%
It is recommended that, when used under normal cer:ditions as described in the Operator's Manual, this radiometer ce returned O scale C scale at least every 6 mont*ts to the factory or a Spectronics Corpora-j 6870 6770 +100 +1.5% tion Authorized Service Oenter for a complete overall checir and recalibration. SPECTRONICS
- 3 CORPORATION 1
PWurtTED 58 U SA Hpas4816S&H888*6WE)89032sES ' cr> Aa0007 3
N i. FfD e PACIFIC TRANSDUCER CORP. R isoi ,..... ......, t., u,..., c. ..,~. eco 4, m. 1.i.e.,. ..i mai 4 7..us. 4 r.. n. ul=yuMENrs V 097 CALIBRATION REPORT ~ AND CERTIFICATE DATA ON EQUIPMENT TO BE CALIBRATED Ow.r: WESTINGHOUSE ELECTRIC CORP. Purchase Order: 12T-2342hM Equipment: SURFACE THERMOMETER Control Number: N/A Manufacturer: PIC
?!cdel : 3157 Serial Number: W-001 THEU W-024 Tolerance: +- 26 OF FULL SCALE Date Calibrated: 5/4/67 CALIBRATION DATA BEFORE CALIBRATION AFTER CALIBRATION (As Received) (As Returned)
STANDARD EQUIPMENT CORPICTION STANDARD CORRECTION EQUIPhEh7 Test 1 Test 2 N no spoeine pow were W !
;netraments fefem>d to em W-3 (cate were callt>reted at 3 or more points 1
)est 3 ever the areJre rante end fowd to be l
within pubushed accurecy. 3 Test 4 DATA FOR STANDARD (S) USED IN CALIBRATION . TEST 1 TEST 2 TEST 3 _ TEST 4 Ins tru:nent(s): DIGITAL l l
' Manufacture: hT4? ORT -
Model: 268-v'71 I Serial: 1140553-39 - Calibrated: 11-20-86 Calibration Due: 5-20-87 Calibrated By: E. I. L. Traceable To: iTBS #236364 O Qi!ALITY CON 1 LLER: Y# DATE: 5/4/87
/ LIITDA A. POLFE '
ember: American society for Terring and Materials Fo m No. 21S2
WESTINGHOUSE NUCLEAR SERVICE DIVISION INSPECTION SERVICES g EXAMINATION CONSUMABLE MATERIALS PLANT J.M. FARLEY - UNIT II YEAR I907 MANUFACTURER TYPE BATCH UfT COUPLANT SONSTRACE -40 8662 DYE PEPETR ANT .
~ ~
~'
CLEANER MAGNAFLUX SKC-NF/ZC-78 84H018
~ '
PENETRANT n i b6 MAGNAFLUX SKD-NF/ZP-98 85M043 OEVELOPER neMove'n SAME AS CLEANER MAGNAFLUX 14AM BATH 87C053 POwoeR MAGNAFLUX NO.8-A RED 86C083 FILM OTHER , l h v FORM 459378 1
Cdl.Addr.w: INTEL ' BRANCH OFHCES: natories, Inc. 1.i . im. c6* iu InternaHrmal T Q * " *
- w ) 8;r ..,
Assayer ggg Weigners, 578 582 m-.. ._ . STREET MEWARK N. J. erses pisosis. esosa soo 477se.4 RE00RT OF TEST DAu October 17,_1986 No. 523091 r From Johnson 6 Johnson Ultrasound Incorporated l R.D.-#4, Box 76 ' Lewistown, Penn. 17044 l Sample of : Sonotrace 40 Marked : Batch No. 8662 ' l Spec. ASTH-D-129 and D-808 Purchase Order No. 20041-DAL Results : s 27.5 ppm l Halogens (C1) : Sulphur : 4.5 ppm I, David N. Hoffman, do hereby certify that the above is true and correct. Sworn and subscribed before me this
- 17. day of October,1986.
< cp a'.lL-,J ls.Ron Ngtary Public Commi To (dxpires August 13,19 .
Lewistown, PA INTHNATIONAL TESTING LABORATORIES, INC. Th khTn7 .i the lai ruiraal T=hs LabmW 1ac. I wini repart se the errvies .harged for bernia. ska!! in , O event essend abe amanent .f ik invoice. Our.~.reports pertain te.ik .pr. sample .Jsa.mtad
- en!r. laforimetimo . , a n. w# _
~ fp m. .. .
l MAGNAFLUX Comoranon i 7300 West Lawrence Avenue l Ch6caQ0. lL 60656, Telephone 312 867 8000 e , j
.I -
December 2, 1986 l
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