Forwards Documentation Excerpted from Plant Mechanical Equipment Qualification Program for Evaluation,Per H Walker Request.Brief Explanation & Instruction for Use of Excerpts Encl

ML20206M072
Person / Time
Site:	South Texas
Issue date:	04/15/1987
From:	Wisenburg M HOUSTON LIGHTING & POWER CO.
To:	NRC OFFICE OF ADMINISTRATION & RESOURCES MANAGEMENT (ARM)
Shared Package
ML20206M077	List: ML20206M107 ML20206M129 ML20206M240 ML20206M284 ML20206M358 ML20206M421 ML20206M461 ML20206M528 ML20206M639 ML20206M984 ML20206N270 ML20266F530 ML20266F586 ML20266F592 ML20266F602 ST-HL-AE-2070, Forwards Documentation Excerpted from Plant Mechanical Equipment Qualification Program for Evaluation,Per H Walker Request.Brief Explanation & Instruction for Use of Excerpts Encl
References
ST-HL-AE-2070, NUDOCS 8704200014
Download: ML20206M072 (54)
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l The Light NE f flouston 1.ighting & Power P.O. Box 1700 flouston. Texas 77001 (713) 228-9211 April 15, 1987 ST-HL-AE-2070 File No.: G9.1, E24.2 10CFR U. S. Nuclear Regulatory Commission Attention: Document Control Desk Washington, DC 20555 South Texas Project Units 1 Docket Nos. STN 50-498, STN 50-499 MEQ Submittal Attached are three packages of documentation excerpted from the STP Mechanical Equipment Qualification (MEQ) Program. These have been requested by Mr. Harold Walker of the NRC staff for the purpose of evaluating our MEQ program.

Also attached is a brief explanation and instruction for use of the

'V 3 excerpts.

If you should have any questions on this matter, please contact Mr.

M. E. Powell at (713) 993-1328.

W M. R. Wjsenburg Deputy oject Man er GET/yd Attachments: 1. Instructions

2. MEQ Package AlSI-FCV-0851

3. MEQ Package 3R20lT-CC-0402

4. MEQ Package 3V10lVDA222 (2 Volumes)

UfA A AA:t aald allScw? H<

,s kl bob Ll/NRC/fa n 8704200014 870415

{DR ADOCK 05000498 PDR

_ _ _ _ _ _ l

ST-HL-AE-2070

- Houston Lighting & Pbwer Company . f**

cc:

Regional Administrator, Region IV M.B. Lee /J.E. Malaski Nuclear Regulatory Commission City of Austin 611 Ryan Plaza Drive, Suite 1000 P.O. Box 1088 Arlington, TX 76011 Austin, TX 78767-8814 O N. Prasad Kadambi, Project Manager A. von Rosenberg/M.T..Hardt

.U.S. Nuclear Regulatory. Commission City Public Service Board 7920 Norfolk Avenue P.O. Box 1771 Bethesda, MD 20814 ~ San Antonio, TX 78296 O Robert L. Perch, Project Manager Advisory Committee on Reactor Safeguards U.S. Nuclear Regulatory Commission U.S. Nuclear Regulatory Commission 7920 Norfolk Avenue 1717 H Street Bethesda, MD 20814 Washington, DC 20555 Dan R. Carpenter Senior Resident Inspector / Operations c/o U.S.. Nuclear Regulatory Commission P.O. Box 910 Bay City, TX 77414 Claude E. Johnson Senior Resident Inspector /STP c/o U.S. Nuclear Regulatory.

Commission P.O. Box 910 Bay City, TX '77414 M.D. Schwarz, Jr., Esquire  !

Baker & Botts l One Shell Ple.za Houston, TX '77002 J.R. Newman,-Esquire Newman & Holtzinger, P.C.

1615 L Street, N.W.

Washington, DC 20036 T.V. Shockley/R.L. Range Central Power & Light Company P. O. Box 2121 Corpus Christi, TX 78403

• Includes Attachments 1 - 4; all others without attachments.

L1/NRC/fa Revised 2/3/97 l-

I l

Attrchment ST-HL-AE-2070 File No.: G9.1, E24.2 Page 1 of 1 South Texas Project Units 1 Docket Nos. STN 50-498, STN 50-499 Sample Excerpts from the STP Mechanical Qualification Program Attached are the Mechanical Equipment Qualification documents compiled for the three component tag numbers identified by the NRC. As requested, all the necessary documentation required to establish qualification of the non-metallic materials is included in each package.

The STP has prepared the Mechanical Equipment Qualification Report (MEQ-1) to demonstrate compliance with General Design Criterion 4 for safety-related mechanical equipment. The extent of treatment is indicated by the attached table of contents from MEQ-1.

Appropriate portions of MEQ-1 are included for each tag number. These portions may refer to other sections, e.g. , Appendix D, which should be understood to mean the corresponding section of MEQ-1.

To follow the path of establishing qualification, the steps below should be considered:

1 Appendix A of the MEQ-1 report identifies the degradable parts in the device or equipment of a certain tag number, including the material for that part which was verified from the vendor submitted documents listed in the Reference Document Column. The vendor document was reviewed to determine the function of that part as either static or dynamic. Once the material has been identified, the material Qualification Reference Document column provides the Non-metallic Material Qualification (NMQ) number. Appendix C of the MEQ-1 contains the NMQ sheets. These provide a comparison of the environmental and process parameters to which the material will be exposed and the material capabilities. The material capabilities were taken from various data, e.g., vendor catalog, specification, qualification reports and/or other documentation and compiled in Appendix B, Material Data Sheets (MDS). Environmental room conditions for the NMQ are extracted from the STP Equipment Qualification Design Criteria, 4E019NQ009, while process conditions are compiled for convenience in Appendices E and G.

The Mechanical Equipment Qualification approach outlined in the above steps is described in Section 5.0 of the MEQ-1 and the succeeding flow diagram which are included at the beginning of each attached component tag number package.

L1/NRC/fa

T ATTACHMENT 4 ST HL-AE- 3 O'10

__EA.QE I OF t 14926-MEQ-1 Revision 1 J. TABLE.OF C0NTENTS

1.0 INTRODUCTION

'A 2.0 SCOPE 3.0 LIST OF PURCHASE ORDERS EVALUATED FOR MECHANICAL ENVIRONMENTAL QUALIFICATION w 4.0 ENVIRONMENTAL CONDITIONS 5.0 MECHANICAL EQUIPMENT QUALIFICATION APPROACH 6.0 ENVIRONMENTAL QUALIFICATION REVIEW AND EVALUATION 7.0 CORRECTIVE ACTION PLANS 8.0 MAINTENANCE / SURVEILLANCE PROGRAM i

9.0 REPLACEMENT PARTS PROGRAM 3 APPENDIX A - IDENTIFICATION OF NON-METALLIC SUBCOMPONENTS, DEGRADABLE MATERIAL AND QUALIFICATION

SUMMARY

PER PURCHASE ORDER.

APPENDIX Al - IDENTIFICATION OF LUBRICANTS AND QUALIFICATION

SUMMARY

PER PURCHASE ORDER.

APPENDIX B -

MATERIAL DATA SHEETS APPENDIX C -

NON-METALLIC MATERIAL QUALIFICATION APPENDIX D -

REFERENCES APPENDIX E -

PROCESS TEMPERATURE DETERMINATION APPENDIX F -

QUALIFIED LIFE CALCULATIONS APPENDIX G -

PROCESS RADIATION DETERMINATION APPENDIX H -

WESTINGHOUSE NSSS MECHANICAL EQUIPMENT QUALIFICATION FOR HOUSTON LIGHTING AND POWER S0llTH TEXAS PROJECT (WCAP-11024, Rev. O AND ADDENDUM, DATED 10/15/86) h EQR/PEARD1 11

q

O i

i MECHANICAL EQUIPMENT QUALIFICA' ION '

APPROACH l-AND f

f- FLOW DIAGRAM l'

O (Excerpts from MEQ-1 Report, Section 5.pages 5-1 & 5-2) i 9

6 4

O

14926-MEQ-1 Revision 0  ;

l 5.0 MECHANICAL EQUIPMENT QUALIFICATION APPROACH The non-metallic parts of the safety-related mechanical equipment are identified in Appendix A. Also in this Appendix the Mechanical Equipment Qualification Summary status for each part is provided. A determination is made during qualification analysis in Appendices A and D as to whether the non-metallic part is required for the equipment to perform its safety func tion. If a.part is not required, no further analysis is performed and the rationale is provided. If the part is required, it must be constructed of materials with the capabilities to withstand the environment and process condition imposed on it. The non-metallic part's degradation must not prevent the equipment from performing its safety functions during its exposure to these environmental conditions.

Material capabilities are compared against the environmental and process of facts of radiation, temperature, and aging, to determine part susceptibility. The Arrhenius equation is used where applicable to calculate the life of materials. The of facts of pressure and humidity were not analyzed since these are enveloped by the process conditions given in the design specification. The ef fect of external beta radiation is considered to be insignificant as the non-metallic parts are shielded.

The non-metallic material qualification in Appendix D shows the results of the material-capability analysis, and the qualified life of each non-metallic ma t erial .- The life calculation is based on the radiation and temperature only O and must% used in conjunction with the specified maintenance / surveillance program identified in equipment manual provided by respective vendor /

manufacturer.

A flow diagram of the overall approach for mechanical equipment qualification is shown on P. 5.2.

I O

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O 14926-ME01 REVIS10N 0 i

l FLOW DIAGRAM OF  :

ENVIRONMENTAL QUALIFICATION l DENT FY MICHANCAL OF MECHANICAL EQUIPMENT EQUPPENT COVEMD BY

^PECH. t.0. PROGR AM SY P.O .

• A REVEV E.O. M ASTER l

FLE & OTWR DOCUPENTS TO PREP ARE A LST OF ALL TM PECHANCAL EDUPPENT SY THER j T AG M. MNDM A) litVEV SPECFCATION

& QTHER DOCWENTS RtvEV CABLE VtWOR DOCUPENTS 0 Y M g ggp gg AW MNTFY YARIOUS CO2 RENES i PARTS CONT Age 500

($$CTION 4.0) i AGE - SENSITIVE /

Ot0R AD ABLE M ATERIAL O

00 M NTFY t L i ARE TE C L ES PETALLC OF PION-PET ALLC RtCOMMEND RtPL ACEPENT PARTS REQURED FOR YES C e ^8 L'TY PARTS M ADE OUT OF gptEH PART(S) yo ,

W E00PPENT TO PERFORM PEtT OR (MCttD T4 (NVRON- QUALF ED M ATERIALS OR TS SAFETY FUNCTION PENT AL COMITION TO F POS$3LE REVSE THE MATERIAL VHCH IT 5 (MPOSED REPL ACEMENT SCHEDULE 1 7 (APPENDMe) ( APPENDM D)

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SOUTH TEP' NRCJECT ES MASTER ) LISTING

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" TAG NUMBER DESCRIPTION

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.M'SYS ROOM- FT' IN. MANUFACTURER. MODEL NUMBERi '/M. EQ~ IN 7 N 20201T-CC-0013 0016.000 CHECK VALVES M CC R402 52 00 TRW MISSION 15SEF-U01 H A A

$-2A24LT=CC=345" 0314.CO3-CHEC3C-VALVE! " CC R2 14---1? -00 TRM-MISSION 15&E M 41 ." * *

, , 2R201T-CC-0123- .0016.000' CHECK VALVES- 'M CC' R402;52 00,TRW MISSION '15SEF-UOl' "H I A: AW *@

2R201T-CC-0138 ~0014.000" CHECK VALVES M.CC MAB.- 19 00 TRW MISSION- ' n15SEF-U01s ~H :A- -Ag. A

.4224&T=CC=410 3 041b400-CHEC3C-V AL V E S "

CC---44 43--53-.-04-T A u-MISSION 1-5SE4US: * "'

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N 22201T-CC-0198 0014.000 CHECK VALVES I" 22201T-CC-0319 M CC R308 52 00 TRW MISSION 15SEF-UD1 H A A 0012 000 CHECK VALVES M CC R308 37 00 TRW MISSION K15SEF-UO1 H A A f'.-2 V L41 T-C"- 0255 SCC 4.434-CHECJG-V ALVEr! " C" "AS I? 00 !AW-MIS &IO" K15&EMIS " -* S ..

" 3R201T-CC-0051 0029.000 CHECK VALVES -

M CC - M108B lo c ~ 00 LTRW ~ MISSION' -

15SEF-UDO ' H 'AL 'A W ?.#.

" 3R201T-CC-0131 0024 000 CHECK. VALVES M CC~ M1088 10, 00 TRW MISSION 15SEF-UOO :H .A US2baan NNC-# AL V E S A(? ~ ~ * ,

• -32241T-re-4191 " CC- "1088-30 '00 TAW-MISSIOY '! PE M 00 M a' =~

3R201T-CC-0230 0003.000 CHECK VALVES M CC MAB 60 00 TRW MISSION KISSEF-UOO H A A

( 3R201T-CC-0311 W W -CC-0313 0024.000 CHECK VALVES 0024.434 CHCCJLVALVES M CC M110 10 00 TRW MISSION 1ESEF-UDO H A A

" CC "14SB 10. 00 TAW-MI!!!OM l'!EF-Ugn u a a 3R201T-CC-0315

'. 3R2017-CC-0336 0024.000 CHECK VALVES 0012 000 CHECK VALVES M CC M108B'10 00 TRW MISSION ~

M CC RCB 371 00 TRW MISSION-

- K15SEF-UO0' K15SEF-T18 H- 'A.

H A A

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R231T=CC=3402 0006.433-CHEC3C-.-V ALVC S " CC A349 3? 40--TAW Jt ISSI O Y ' 'a E 1

M15FEF=-T-19 ~ k-A i 32201T-CC-0540 0004.000 CHECK VALVES M CC R308 37 00 TRW MISSION

,T, 30201T-CC-0541 0004.000 CHECK VALVES K15SEF-T18 H A A R231IeCCsa70 M CC R308 37 00 TRW MISSION K15SEF-T18 H A A BachCSE INCH-CHECK VALVE M CC D308 037 00 "!!?!O" M15SEF-Tin M a

• 32281T-EW-0006 0030.000 CHECK, VALVES 'M EW S104 28 00 TRW.MISSIOM 158BEF-U00-3R281T-EW-0042 M' -- A A' 2*'-

0030 000 CHECK WALVES M EW S105 28' 00 TRW MISSIONE ~ 1588EF-U00 M A +A w 3R2SII EW=3379 4030.433-CHECK-VALVES M EU--SIC &--2 9 ~ 00'TRW MISSTOY 1588E4 UOD = A a. ~

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-AML).

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WLR6K SOUTH TL 40 JECT SL54;T60002 ~ ^ '

PL .223 SORT: L.~;.SYSTE"/ SEQUENCE ' -

_'l_ l8ECHTEL J08 C ..1C26-00f'*T f" C2O TI._ '.. 4:50 ENG SYS: CC . .

, ,. g , .. , ,- - . . V2LVE MASTE3 FILE, . .

LISTING .. mm ; n .c , , g. ,n , CGTE ,1/29/07

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.............................................................T.'...r.'..^.'......~..'.........................n..'..................... . .

TAG NUMBER (CF) $ GENERIC IDENT (CF) OPER l' P & ID .

LINE MTL SPEC NUMBR VSS:. J VENDR DATA 1 PO'. PO. VENDOR ,0LD TAG NUMBER]

P , SIZE.T MPESDRSF CHAR N NUMBER REV CRO NO. CLS NBR LOG NUMBER NUMBR 'ITM y . - .c - - . -

y.iTRNCSEFLT L. R T. f _

-C' , '.~ _ (CF)T W '* E Tl: . . . . , , , S/U ROOM ".'

REV REMARMS P LSDHNS tJ SERIAL No, (CF) MRR/RSI ACT. PACK. RE0eSITE DISBURSEO INSTALLED SYSTEM NUMBER 7R202T-CC-0397 '4.00 PH 22FS488C* 705021' 1 ' 2569 XC7'TSS06: ~r.87i ' T" ~ 0t tBRM 8070. .14 XDMOX'

• TM " 840701-

"012 LCCX DEVICE L.I.P. ^C'* N7 I 840917- ' 2CC01., -

7R201T-CC-0398 ' .1.00 DH 265588-C ' ~ 7 FC50213" ~^ 11588 XC7;TS1009 7 ~ T T000 48FWs '6361.3 RockWELLj

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• 1.00 DH 265$89-C ' ^' E ~~ F05021 7 TT ~'2588 XC7~TS t009 :" 7"U000148FW ^6361' 34 ROCkWELLN " " ' 23

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" " N/A1 %" ~~~ ' 8154627 "> " 4"' " " +" ~~' :0 870912' ~000000 J 2CCO t ' '

i1613 'XC9 T5104 T' '49"

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9420tT-CC-0399 ^ R.F05021

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'.50 CH 265538-C ' ~ ', 01058 4032' 3t RER0 TEST'

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013 VLS-12 *^52819* *I ^ ~7 018307 " I 850529; "tCC01 0 992027-CC-0399' '.50 CH 265538-C R F05021 ^~ ~ 26t3 XC9 TSt04'" f e9 7~ 01058 ~8032' f31 kER0 TEST.

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DAE665 52481* I 850901' ~ D 860327 000000 2CCO17 i

92201T-CC-0400

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.50 DH 265S38-C' ~ R F0502 t ' 1613.XC9 TS104"  ? 49* 1010581 4032 ~ 31 kER0 TEST >

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' VL3-2~ ' ^ 512819: ' " V F M 018307.' ' ~

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9R2027-CC-0400' .50 DH 265538-C R'F0502f 2613 ' XC9 LTS 104 " " 149 7 ' ~ 1010581 8032- ^31'kER0 TEST l.

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~ DAE6311- 52481 J *' ~ :850901 D 860327 ."000000 2CC01E 9R201T-CC-040t 6.00 BG 62LS388C F0502t "' 1613 XC9 TS103J

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'8' '01097 74028 ~5 HILLS'MC "

" "137599

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Of4 LOCK CEVICE L.I.P.. .189-380.' 'I-841219 ~ 1CC01 l 99202T-CC-040f ;6.00 SG 62LS38BC TF05021' ' T 2613 XC9 TSt03. 8

?01096 8028 _5 HILLS'MC l

007 LCCX DEVICE L.I.P. ~~ 125-384' ' B f 2067 ! * * ' ~~+850301 'O 860207 000000 2CC01

---h 3R20tT-CC-0402 ' ~ 6.00 CD 22WS38-Cl 'F05021 1525.WA3-TSt00' ' 72 t!" TotC32 4037 "4 TRW MISS." 4---

014 ACTIVE VALVE . . .L-15221._

• 8 _ f 36 T ~ J830115' D 83t114 .I 850107' 1CC01 R308

3R202T-CC-0402 ~ 7 6.00 CD 22WS38-C 2F05021 ' 2525 WA3'TS100 2 21^W " ,. {01032 8037 4 MISSION' l

• - " 005 ACTIVE VALVE '

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_ P413' . "1137571 ^ ~~ M ~ 850101C JD 851126 11 860728~ 2CC01'R308 i

'^ 11526 WA2 T54035 "~""21" " of140-4t'1'40287 '17' HILLS MC.

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2R20tT-CC-0403. '12.00 SM 62LS29-C RXX '^F05021' >

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' 013 ACTIVE. VALVE J ' 171182 ; ^

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"' ' ' 830C15 % D 8510051'I 851014 1CC01 R308 3

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SECTION 3- Purchase Order No. & Equipment Description 1 6 I

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14926-MEQ-1 Revision 0 r

EQUIPMENT DESCRIPTION l SPECIFICATION NO.

PURCHASE ORDT3tl l l I

4031 bliows Seal or Packless I 1L529TS0104-0 l Metal Diaph Valves 2" & l lSaaller l

IL5297S0104-0 4032 lhellows Seal or Packless l l Metal Diaph Valves 2" & l lSealler I

- 1 I . .

4034 l Pressure Safety

• l 42459ZS1006-4 l Relief Valves l 4035 l Pressure Safety l 4Z459ZS1006-4 l Relief Valves l l

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lCentainment Hechanical l 2 CX)90RS1000-4 4036 IPenetrations I I

I O 4037 l Gate, Globe & Check l IL529TS0100-1 q IValves l l

4038 l Gate, Globe & Check l 1L529TS0100-1 l Valves l l

l 4039 l Gate, Globe & Check l 1L529TS0101-0

• l Valves l I l i I 4040 l Essential Cooling Water l 3R289NS0012-0 IPump l 4041 l Diesel Engine Generators I 3Q159MS0034-2 I

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I 050 isolenoid l I I I I 4053 l Auxiliary Feedwater Pump l 3S149M50043-2 I I

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MFARD1/BDNPGT1

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CLARIFICATION: The normal radiation dose value used in the qualification of the non-metallic material for valves purchased under  :

P.0 4037/8037 is an enveloping dosage. The latest design criteria for EQ 4E019NQ1009-Rev.7 requires only 3.5 x 10 4rads for valve Tag No. 3R201T-CC-0402. i l The accident dose of 1.4 x 108 rads is a comb  :

andbeta.Therequiredgammaisonly2.3x10)nedgamma rads. The i non-metalleic material is shielded from beta dose by the 1

valve housing.

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4,0 ENVIRONMENTAL CDNDITI NS (CCtinued) 14926-MEQ-1

- Rev.3

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[~ l l Ambient Environmental Conditions l l

,1 , l Temperature ( F) l r-Radiation ( Rsd) i Reference l PO Naaber l Normal l Accident i No rmal l Accident l l4031/8031 l 65-120 l 323 l 2.0EQ7 l 2.3E07 l 4E019NQ1009-6l l l l (Max) l l l 1 l l lSee Fig.4.1l Note 3- l ( Re f.180) l l l4032/8032 l 65-120 l 323 l 2.0E07 l 2.3E07 l 4032E Q-00001-l l .

l l (Max) l l l l l lSee Fig.4.1l l ( Re f.180) l BUL i 4034/8034 29-120 323 l 2.0E07 2.3E07 434592S1006-5 (Max) l Note 3 ( Raf.180) l' l

• lSee Fig.4 1l l l l l4035/8035 l 29-120 l 323 l 2.0E07 l 2.3E07 l424592S1006-51 l l l (Max) l Note 3 l ( Raf .180) l l l l lSee Fig.4.1l l l l

,4036/8036 ,29-120 323 l 2.0E07 l 2.3E07 l2C090RS1000-6 (Max) Note 3 l ( Ref.180) l l lSee Fig.4.1l l l l l4037/8037 l 65-120 l 323 l 2.0E07 l 2.3E07 l4037EQ1-00001l

'l l l (Max) l Note 3 l ( Ref .180) l -AML l ISee Fig.4.1' l 4038/8038 65-120 L 323 l 2.0EQ7 2.JEQ7 l4038EQ-00001-l l l (Max) l l ( Ref.180) l CAD l l j lSee Fig.4.1 l l l

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] l4039/8039; l(Inside the l 65-120 i

'l 323:

(Max) l 2.0E07 2 3E07 l ( Raf.180) l 14039Eg-00002-l BBG l

! l l RCD) . l lSee Fig.4.1l l l l l4039/8039 l 50-135 l 335 l 1.0E07 l 1 7E06 l 4039EQ-00002-l l(Outside thel l (Max) l l l BBG l l RCB,inclu- l lSee Fig.4.2l l l l 1 ding IVC) l l l H l l l4040/8040 l 50-104 1104: l 1.0E02 1 0E02 3R289NS0012-1l 10-30 days l l l I l l4041/8041 l 29-104 ,120 s a 1 0E02 1 0E02 l3Q159MS0034-2l l l l0-30 days l l l l 4050/8050 29-120 323 2.0E07 2.3E07 43449251005-5.

(Max) Note 3 ( Ra f.180) l l lSee Fig.4.11 l l l l4053/8053 l 40-104 l Note 8 l 2.0E02 l 1.JE04 i33149HS0043-3l l l l l l l l l4056/8056 l 34-104 l104: l 1.0E02 l 1 0E02 l l l l l0-30 days l l l Note 9 l l l l l l4062/a062* l ,

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• No safety related organic /non metallic cor.ponents (Raf.164)

O ) 14926MEQ/S7P2

- 4.3 -

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4.0 ElfVIIt000SIFFAL QDNDITIONS (Continued) 14926-MEQ-1 Ilev. 2 6 -

p  :

-)1The Essential C1fs Water Travelling Screens are located in th essential cooling water intake structure. The environmental conditions therefore are obtained from 4E019NQ1009-Rev.7.

2) Deleted. '

3) There are two (2) areas outside the containment as spee.'.fied by 480190191009-7 which are esposed to more than 1 0E07 rada (gamma only) for normal range 40 years total integrated dose (TID). These rooms la building MAR are ,

Room a) Righ Activity Spent Resia storage Tank 0054 244A-T b) Mixed Bed Domineraliser Cubicles Simee no tag Ilo. was identified in Rooms 0054 & 244A-T (Itafor to EQ master i11e listing dated 6/26/86). The worst case normal radiation of 2.0507 Rads (for inside R3 emoept reactor oavity rooms) is used as a conservative normal radiation level for the qualification of inside and outside RG.

d) (Os1 ed)

5) The environmental conditions for the safety-related dampers with no actuators in p.0. 4168/0168 are listed. The environmental conditions for the safety-related dampers with Miller pneumatic actuators, Hodel 6SA Series are:

Temperature Radiation ,

teormal 29-120*F 1000 Reds Aeoident: 120*F 4300 Reds The environmental conditions for the safety-related dampers with Borg-Warner modulating hydraulio actuators, Models RMM-PC and ROM-FC are Temperature Radiation Iloreal: 50-104'F 1000 Rads Accident: 120*F 13,000 Rads 14926MEQ/sTP2

- 4.s -

4.0 ENVIR000SNTAL GHfDITIONS (conti ued) 14926-NEQ-1 Rev. 2

) NOTES:

6) (Deleted)

7) For the outside containment radiation of 10E07 Rads is the >

worst case for all locations except rooms 0054 and 244A-T.

e) The turbine-driven pump and its associated equipment shall be qualified for the environmental conditions existing when cubiele -

,- ventilation has been lost. For this state of operation, this 4

equipment must be qualified for the temperature rising from a l

steady temp. of 104'F to 140'F in a 30-minute period and

! continuing to increase at the rate of 15'F/ Day'for a period of 2 j

days once every 8 years, and excursions of 130 F for a duration of 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> once a year (Ref. 35149MS0043, Rev.3). ,

9) The environmental conditions were determined per IQ Master

}

File Listing and Design Criteria (48019NQ1009, Rev. 7) for the j srp:ific room where the equipment is located.

20) Norst case harsh environmental conditions enveloping all areas i un Ivc subicles (escluding accident condition), EAB, DGB, MAS l

rooms 18, 144, 33, 39 and 62, Fuel Mandling sailding and control i l

l Aoom (Innocessible Areas).

11) In Niel Mandling suilding, radiation esposure of 40 year

.)

normal operation and 180-day post accident are 2.0E03 Rads and 8 0506 Reds respectively.

j J I

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r f 14926MEQ/sTP2 i - 4. 9 -

14426.HEO.I Sev. I FIGURE 4.t O

'(

l 'teest.gsaner) .

< .- - ttoo are. s s*R) .

(sooo sec., asses)

I d (soo asc. asoarl .

(11 hay,es*F.)

F (ti ents.rrse r.)

(0kc..ltt*t)

(MsAvsM e(e stC..o*F. )

TIME NOTES!

~

1. DOCS NOT INCLUDE lEtt 323 MARGIN.

1.THIS CURVE DEMCTS MINIMUM VALUES FOR QUALIFICATION TESTING.

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SECHTR ENERGY CORPORATION ensta nus CONTAINMENT TEMPERATURE PROFILE FOR EQUIPMENT QUALIFICATION Housitui ucxias; e pomm m. _.u ts plse; . G is M - .itL 1 ACE 2C.OI 9N 90_031 O 80um tuAs Mater?

i - 4. t o -

APPENDIX A

@ (Definitionofsymbols&determinationof Qualified Life. Taken From MEQ-1 pages A-1&A-2)

14926-MQ-1 Revision 2 O

Q) APPENDIX A The following are the definitions of some of the headings, abbreviations, and symbols used in this appendix CONVENTION l FORM APPEARED IN l

, 1 APPENDIX "A" l DEFINITION

. I I l l ACCEPTABLE

- - - - -

• l acc ept; ACCEPT l STATIC +

l lSta,S,e l

l The part containing the degradable material A

l l operates on static mechanical clearance l l(non-moving surf aces).

l l DYNAMIC + lD l The part containing the degradable material l yn, D , d l operates on dynamic nechanical clearance l l l (moving surfaces).

l l . 1

--- lUNDER REVIEW; U.R. l The information is still under review and will '

i l l be resolved on the next revision.

.l l

---

fen . l Function

. INMQ f l Non-metallic Qualification Data Sheet (shown sl l in Appendix D).

l l .

l l x lQ.L. l Qualified Life Ites No. litem # l Fictitious number assigned when material l l requisition Ites No. not available.

l l l$EE ALT l The manuf acturer reconsendation material is l l not qualified use recommended alternative l l material.

l l lRef. Document l Ref. document numbers show in this Appendix A l(e.g. 01003AFC) l are for Unit 1 equipment unless otherwise noted.h

! l x See page A-2

+ Table Heading O E. . 1 ..! a

14926-MEQ-1 Revisica 2 s

APPENDIX A O.J The qualified life is either a calculated life based on the radiation and temperature capabilities shown on the material data sheet (NDS) er the life outracted from the reports listed below. If both are available, the more conservative life is used. The qualified life must be used in conjunction with the specified maintenance /ourveillance program 44entified in equipment annual provided by respective vendor / manufacturer.

4026EQ1-00001-DUL 4027592-00004-SUF 4028-00073-AIM

' ~

402959-00004-AMA 40305Q1-00001-BUL 40'305Q-00007-330 403159-00001-34G 4032591-00001-SVL 40375Q-00001-AML 403989-00002-35G 4409-00257-CYF 4409-00245-Avr 4409-00244-BYF 4409-00243-AVf 4409-00207-CVf 4409-00204-BYF 4409-00204-CVP 4409-00203-CVf 4409-00201-CYF 4409-00200-BYr 4409-00199-BYF 4409-00193-CVF 4409-00192-Avr 6360-00022 sFV 6 70-00090- A 6300-00019-AID 6381-00024 CJL 6412 00024-CDS 6413-00044-3FR 4452-00002-A01 k 6455-00025-SQY 6373-00068-ANY 0387EQ(1)=00001-GUL 0011(1)-00158-CFD 4018-00003-SSC 4022EQ1-00001 Biff 40405Q1-00001-BMY [

4053-00016-set 40556EQ1-00002-suL 40706EQ1-00001-sVL 4092EQ1-00001-cuL 4099 -00105-aAN 4122:Q1-00001-sHX t

4129-00116-AMM 4168-00267 aVA 4310-00182-AYD 4315-00110-319 4318-00035-DJJ 4390 00067 CYN [

b

. ~

EQR/MrARD1 8 ~7.

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O SNEET & OF 4 ruaCHASE ORME 4037 z

REVISION EQUIrftENT CIECK VALVE ArPEISIX A ORICIMATOR W MTE 9/ met SOUru TEIAS PROJECT Cusrmra e . y MTE 9-in-as.

• MBCEANICAL EQUIrfENT quaLIFICATIM .

• 3 ..

NOTE: 1. Deleted. -

= 2. The informaties obtained from the mennfacturer indicates life of 10 to 15 years for resilient seals used la TRW check valves. ,

The theresi asias analysis provides a calculated life of greater than 40 years for the seat asterial.

Radiation analvois shows that the radiation redeces the mechmeical properties of the seal by 502.

E Wyle recommends in EQ report (Ref. 4037EQ-00001-AML) that seal replacements for other concerns such /\

as excessive leakage will govern. These non-EQ requirements are addressed in normal plant /3 \

maintenance and surveillance programs. >

3. Unit 2 tag numbers have not been included in this revision.

t l .

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. Page 16 g

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l (Lubricationforthevalve) i

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U r ASE ORD'J:O} ?/ 901?_ ___. (PPsNsII c1 a u V I n t oN _ e__

e r ,

sou PwsNT:CNueg_ynyss _ _ ORIGINATOR g,et.__e e. e9__ _ _ _ _ _h *%[,

j souTN TEIAs PROJECT ATBa nacuANICAL soutrwspr oUALIFICATION CNECESS... Q ...eBATE V {p' 6 e

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10mIf Gil Co.: ,

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:Ceeponent :

Net! Omal: Ouel. Receemended :  :

1  :

a,, net. A for W Tag :Sescrip. : Lubricant ferr! Lubricant: :ste/: Ref.

Syne:Becuseat:Ref. Sec.: Status :Anterangive : Remarke  :

me. Lletings)

Part &/or Cate: *._----.*--....--_-I-.....e-.--....

e

) .

_- _ - _ .e - - _ e_-e ____-- _ -

NONE IN/A 01001 :N/A N/A !N/A j  :*300 CNEE*:NONE  !  !  :  :

CNBCE  :  !  !  ! .

:  :  :  :  : ,  ! e 1,

: VALVES  :  : .----.g. .---......-e:

]

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dewe.-e e de ee.eemete..me.medemee-ememee-eeeeeeeeeeeeemed I deoe-e__mo_ee.ee

.I t

3

4 O

APPENDIX B l@ . (Specific pages in Appendix B that address the threshold level of the l

material under investigation in the component ) ,

I t

t f

i i-SOURCE: MEQ-1 7-l I i

i

! i P

4

" 'T' ~ - -~*W--

APPENDIX B MATERIAL DATA SHEET

MDS # 117, Rev.2

/ )J Page 1 of 2 MATERIAL: NORDEL GRADE, CLASS: VISCOSI'IT:

MANUFACTURER (S? : DU PONT SHELF LIFE:

REFERENCE:

TEMPERATURE RESISTANCE: MEDIUM:

OPERATING RANGE: -50 To (257-293)*F

REFERENCE:

175 P. 17 TRANSIENT: 365'F Intermittent

REFERENCE:

175 P. 17 TEMPERATURE LEVEL FOR NO DETERIORATION (a)

THRESHOLD FOR NOTED DETERIORATION: (b)

(c) m

, ) (d)

REFERENCES:

(a) (b) (c) (d)

ARRHENIUS CONSTANT: In (life) = 14980.90311 - 28.9166 BASIS:

REFERENCE:

4037EQ-00001-AML/ P.9 M j RADIATION RESISTANCE:

RADIATION LEVEL FOR NO DETERIORATION CAMMA (a) 1.0E06 Rads For EPDM l (b) i l

l THRESHOLD FOR NOTED DETERIORATION (c) 5.0E07 Rads, 52% reduction in elongation change (d) 1.0E08 Rads, 63% reduction in elongation change 21% reduction in tensile change (e)

( f)

STPMDSNL/ MDSNOLUB Page 33

APPENDIX B MATERIAL DATA SHEET (cont'd)

Q MDS # 117, Rev.2 Q) Page 2 of 2 REFERENCE (a) 4037EQ-00001-AML/P.8 (b) (c)4037EQ-00001-

• AML/P.8 (d)4037EQ-00001-AML/P'8 . (e) (f)

DOSE RATE EFFECTS:

5

REFERENCE:

SYNDLGISTIC EFFECTS:

REFERENCE:

MEDIA LIMITATIONS:

REFERENCE:

NOTES: 1. Nordel is an EPDM Rubber (Reference 175 Page 17). Nordel is a trade name for Ethylene Propylene Dienyle (EPDM) (Reference 4037EQ-00001-AML).

s t

O STPMDSNL/MDSNOLUB I' age 24

'N '

a 2 .

,y 1:

4 6

9e i-i -

i -

t- t i

L,-

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!. APPENDIX C l 4

8 (Specific pages in the Non-Metallic Qualification fer materies l

identified in the equipment) i SOURCE: MEQ-1  ;

I

?

APPENDIX C STP NMQ # 117 C SHEET 1 0F 2 REVISION 1 ORIG. A/// DATE / 0-1/-tf CHKD. wy DATE o- i - t6 SOLTTH TEXAS PROJECT MECHANICAL EQUIPMENT QUALIFICATION PROGRAM NON-METALLIC MATERIAL QUALIFICATION MATERIAL: NORDEL MATERIAL DATA SHEET: MDS fil7 ASSOCIATED P .O.: 4037 QUALIFICATION: Nordel is used as seal for integral part of valve bcdy.

l EhTELOPING l MATERIAL l l EhVIRONMENTAL l CAPABILITIES / l PARAMETERS l CONDITION l QUALIFICATIONS l REMARKS I I I TEMPERATURE (F) l NORMAL: 65 - 120 l 293 l l l l l ACCIDENT: 323 l 365 l l l l l PROCESS:165 for l l l System CC l lNordel has kept about OPERABILITY TIME l 30 Days l50% of its mechanical f'- l l

l l property af ter exposure i

RADIATION (RADS) l NORMAL: 2.0E07- l 1.0E08 lto 1.0E08 Rads of l l ' l radiation. (Ref.

l ACCIIENT: 2.3E07 l l4037EQ-00001-AML) l l l l INTERNAL: l l l l l QUALIFIED LIFE: 10 Years per 4037EQ-00001-AML, the thermal aging provides a calculated life of greater than 40 years for the seat material. Radiation analysis shows that the radiation reduces the mechanical properties of the seal by 50%. The information obtained f rom the valve manuf acturer indicates life of 10 to 15 years for resilient seals used in TRW check valves. Wyle recommends that check valve to be inspected for excessive leakage and if necessary the seal replaced every five years.

CONCLUSINS: Acceptable.

O

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4 4

8 I

i REFERENCES l

i l

SOURCE-MEQ-1 e i

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1

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l SOURCE MEQ-1 1

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h ' - HYPALDN* synthetc rubber. Y " s', HYTREL* polyester elastomer.

y A hs0hly ozone and weather re-sistant, color stable rubber that

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O O p*,e s W . . . . . . . . . . . . . . . . . .PAGE 12 A guide for selecting the DuPont elastomerle solve your desige Pf 8H - e neoprene synineir rubber.

a musupurpose rubber wah over engineerles problems.

p lI j hallacenturyof proven periormance g ,eg in thousands of apphcations. .

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, 1, n When it comes to elastomers, Du Pont wrote the book.

• i No other company has as much elastomer know-how, Throughout this booklet, " continuous" ex-experience and such a broad range of products. Du Pont posure to heat is considered to be upwards

, y< ] 8' 01 1,000 hour0 days <br />0 hours <br />0 weeks <br />0 months <br />s-not endless ionlinued

- was the first company to unlock the secrets of polymer chemistry that led to Neoprene, the first commercial exposure. By " intermittent" exposure 10 f

d.,.. synthetic rubber. That was over 50 years ago. Today, higher temperatures we mean occasional, Neoprene has been joined t,y a broad family of high short-term excursions above the normal value-in-use Du Pont elastomers that are helping design maximum temperatures-not regular, and materials engineers solve problems in a multitude cyclic variations.

of diverse apphcations. ..

in 1951, Du Pont introduced HYPALOPP synthetic rub-ber, a chlorosulfonated polyethylene-based elastomer.

. . . . . . . . . . . . . . . . . .PAGE 24 Other major Du Pont breakthroughs followed, including I' P.9 W =

3 VITON* fluoroclastomer.

VIT0N* fluoroelastomer (1957), NORDEL' hydrocarbon

}' q rubber (1%3), HYTREL* polyester elastomer (1972),

y y

f One of the most heat and fluid re-sistant rubbers ever developed.

and VAMAC* ethylene /acryhc elastomer (1975). Each of these elastomers offers design and materials engineers f

, e Q l new performance capabehties for elastomeric appications as well as replacement for non-elastomeric parts.

X y" 1

' Rg Since each DuPont elastomer has its own particular e characteristics and properties, this guide has been pro-M duced to assist you in selecting the one that best solves a particular problem. Keep in mind, however, that the Du Pont Elastomers Division makes no finished rubber parts, only the raw synthetic rubbers. These raw mate-rials are mixed by rubber goods manufacturers with various compounding ingredients tc enhance certain properties at an individual rubber part to meet specihed service needs. This guide will help yot select the type of l

rubber you need for a particular application. Then, your I;.;. g.p ;r .W y . . . . . . . . . . . . . . . . . .PAGE 34 rubber goods supplier, given your full information on bhfr$ fk p p Gessary The Language of Rubber anhcipated service conditions, should have no difficulty in providing a property compounded product to meet N x-",' your requirements. 1 i i,- r e

,. f 4 If you have any questions about synthetic rubbers, don't h

• . ( hesitate to call the Du Pont Elastomers Inquiry Center toll free at 800-441-7111. You'll get fast and factual i IE W

{ p gAtjN.g OM answers to your queshons from the most comprehen- ,,,,stered u s seademarks os a df,q sive resource ol etastomer data in the world . . . Du Pont.

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@ l A.E HYPALON is wide!y used in smg'e-pty C 1 roofing systems. Its excellent coloracility ,[. b including energy.saving white gives HYPALON an aesthetic and practical ad- g j 1 3 1 vantage over other roofing matenals. The ;J g l sheet is unvulcanized dunng mstallation i on the roof. enaclitig seammg by heat or I-g i c- - )

adhesive. then slowly vulcanizes during I

.[a[e-N [ j use. No other synthetic ruccer possesses this unique property p  ; j

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• M W.h Z l B Coatings of HYPALON resist gas or ,

>- I moisture vacer permeation. weather. C l

, chemicats. oils and solvents while --

1 maintaining an attractive colored appearance.

C industnal power cacie lacketes with "L '-

3d HYPALON is tough. aor sion resistant.

flexitte and may be colored.

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O The good electncalpresertes of HYPALON permit its dual func!ron as an **

insulation and lacketing in some catie and in automotive and apphance wire.

(q F Automotive air condmonmg hose has a tuce of HYPALON and cover of NORDEL *

^

The NYP'ALON provides the RJse w.th low permeatility charactenstics to water and .i

• l to fluonnated refngerants.

,, ' l G 1.J The excellent weatmenng progenies and l

• 9000 chemicalresistance of HYPALON make it an ideal Choice for reseWotr lmers andcoversandeffluentpitlinmgs H The comDmaten of cort and HYPALON ,

remforces tne best charactenstics of Doth I

matenafs NYPALON provides higgr '. 4 - v.s.

Interfacial adhesen with Corit than other #

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efastomers and protects Cort particles better against otidation.  !

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HYPALON % e mu

a highly exone and weather resistant, color stable rubber that resists neat, oil and oxidizing chemicals

- HYPALON* syntf etic rubber is widely used for a variety of applications in the automotive, electrical and construction industries because of its broad assortment of valuable properties, including: -

e Resistance to temperature extremes.

HEAT-Property compounced HYPALON has excellent stability at elevated temperatures. General purpass compounds can operate continuously at temperatures of 120-135'C (248 275'F). Special compounds of HYPALON can be used in intermittent service up to 175'C (347'F ).

A sample of HYPALON, aven-aged at 70'C (158'F) for more than 4 years, retained 50% of its onginal elongation and increased 30%

in tensile strength.

COLD--Conventional compounds of HYPALON are serviceable down to -18 to -23*C (0 to -10*F). Special compounds retain their flexibility down to -40*C (-40*F ).

. Superb ozone and weather resistance in black or colored products.

• Ability te be brightly and permanently colored while maintaining excelbr,t strength and abrasion resistance.

• Excettent rasistance to microbiological attack.

e Good elc:trical insulating properties in service up to 600 volts.

e Resiatance to a wide range of oxidizing agents and corrosive enemic !s e Excelant resistance to abrasion, wear and other forms of mechanical abuse.

I

• Flame resistance-chlorine content makes it inherently more resis-tant to buming than exclusively hydrocarbon polymers.

HYPALON is used in a vanety of applications including: single-ply roofing membranes, reservoir and pit liners, wire and cable jacketing, hose and tube covers, roll covers, colored extrudates, gaskets and moldings, coatings and a vanety of consumer items sucn as cellular sponges, shoe heels and soles.

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A Ease of crocessing is a maior advantage c of HYTREL. Slow-molding inJtCtion . W m0fding. estrusen and mett Casting of'er O .6 2 the designer a mynad of Cost eMective O ways to product parts Of HYTREL.

B Cushen innerscies for dress and soort 5 W

shoes use HYTREL instead of Cork. g D# innersoies have higflload Deanng -

C CaCaC4 Dr0 vide long lasting resehence. P 5 ~

W sh0Ct redutlMn and resistance to fungus growt?I and the e?* Cts of perspiration.

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HYTREL Contains no clasticih' and b '

does not stif*en wth age. ,, p, O L0w Creep and set Combined with low temperature fienicihty and enCillent 's

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f'en fatigue resistance are onme reasons wny HYTREL is used in athletic footwear.

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9 Athletic equipment and footwear made of HYTREL have Color stacihty not often h  %

i f09nd in rutter geods. g E HYTREL is used extensively in tieniete Coughngs btCause ofits exceffent b

fles fat l gut resistance. l F Fire RCse knings of HYTREL require 4 httie maintenance. weigh less and IG Mavt increased servict hfe C0mpared to Conventional rudder lined hoses.

HYTREL was chosen for this railcar dra't gear tecause of its mecnancal proper-ties. endurance and energy a: sorption Charactinst Cs and CCmgressive strength , ,;,

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('d ) HYTREL' ese ns=u a high performance, low cost alternative to thermoset rubber HYTREL' polyester elastomer offers part performance similar to vul-canized thermoset rubber plus the processing economies of thermo-plastics. HYTREL has successfully replaced thermoset rubber in many applications and at lower cost. The key to efficient use of HYTREL is to redesign the rubber part, taking advantage of the higher strength of HYTREL via thinner cross sections. HYTREL possesses a number of valuable properties, including:

e Resistance to temperature extremes.

HEAT-HYTREL possesses exceptional" hot strength", particularty the hardar polymers. Because HYTREL has a high melting point, it retains its strength at elevated temperatures above 120'C (248'F).

Tensile strengths exceed those of many competitive pehmers.

COLD-Mast of the polymers of HYTREL have solenoid brittle points below -70'C (-94* F). As would be expected, the softer members exhibit the better low-temperature flexibility.

Resistance to stiffening at low temperatures is particularly notewor-thy. For exampfe, the 550 polymer has a torsional modulus of ngidity value at -40"C (-40'F) of 124 MPa (18.000 psi) compared to its room temperature value of 55 MPa (8,000 psi).

. Excellent flex-fatigue resistanc;.

e High resistance to deformation under moderate strain conditions, e Excellent abrasion resistance.

e Outstanding load-bearing capacity e Outstanding resistance to fatigue in cyclic load bearing applications.

V)

( e Outstanding resistance to hydrocarbon fluids, including gasoline and oil.

A e Ease of processing by a vanety of thermoplastic techniques-r,p injection molding, extrusion, rotational molding, melt-casting and gg .

blow-molding.

50 These properties of HYTREL provide outstanding performance and reliability for a wide variety of products, including: flexible couplings, hoses, tubing, seals, gaskets, sheetng, wire and cable jacketing, gears, f,7 fasteners, impact-resistant parts and many mechanical molded parts.

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3 8 Neoprene offem mecfianical and chemical ,'

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M - h^*3 o C advantages over natural ruceer for struc- w tural teanngs. The outstanding weather- p

, ability of Neoprene is unsurpassed by fi, 'r L W most other general purpose ruceers. 9, ', -Q W I

v. H d C NeCorene 8 outstandmg resistance to p

$ damage caused by flening, czone and f.; _ t/ f-

} road contammants are iceal Qualities for y]l.M LQQQ ) F k

automotive constant veiocay iomt seats.

0 Neoprene la'en foam nas played a l l

i critical roie m mattress and cusnioneg hre safety. offenng an acced margin g< g. p; of flame-protection for esttutional ,,

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[' furnisnings g ' .;- ...ac .id ,

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are used et rnany lammating and con-struction acclications because of trieir [" - h ,

good toncing strengtn. water and solvent it resistance and flexible propemes. J F Neoprene is the tr.atenal of choice for a wide vane *y of automotive and industnal ,,

.li power transmission betts incluGrig the 4'f~

unique serpentmo design. This mum- .t *; .

purpose elastomer provides a talanced comomation of cynamic propemes. e.e..

-9p.3 b*g.,.Pl . 1 long f'ex hfe and low neat build-up. with .2s ID:r : -

good resistance to heat. oil, abrasico

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NEOPRENE syninet,en:w a multi purpose rubber with over half a century of proven perfor-mance in thousands of applications Originally developed as an oil-resistant substitute for natural rubber, Neoprene is still widely used for this purpcse. However. Neoprene's unique combination of properties has leo to its use in thousands of .

- applic.ations throughout industry. Among its best known properties are:

e Resistance HEAT-Neoprene to temperature has a practicalextremes' hig h-temocrature range for con-tinuous service of 80 to 95'C (176 to 203*F). In this range, it displays good physical charactenstics wnile resisting long-term heat degradation. For intermittent use. specially compounded products can operate at temperatures up to 120'C (248'F). Heat exposure above these limits does not soften or melt Neoprene; rather. it causes a Neoprene part to harden and lose resilience.

COLD-Neoprene products show little change in performance charactenstics down to about -20 to -25'C (-4 to -13'F ). Below that point. they stiffen until their bnttle temperature is reached at about -40*C (-40*F). Specially formulated compositions, how-ever, can permit service as low as -55'C (-67'F).

e Outstanding resistance to waxes, fats. oils, greases and many other petroleum products.

e Good resistance to alkalies, dilute mineral acids and inorganic salt solutions.

o Good ozone and weather resistance when properly compounded.

• Withstands long immersions in water and direct bunal in soil.

• Outstanding resistance to damage caused by flexing and twisting.

• Excellent resistance to abrasion and impact.

f

• Relativelylow degree of permanent deformation from compression.

Products made from Neoprene include: wire and cable jackets. indus-tnal coated f abncs. gaskets. hose and belting, glazing and paving seafs.

3 structural beanngs, cellular and latex foam products, a wide vanety of adhesives and coatings molded and extruded goods for industnal.

architectural and automotive uses, and a wealth of consumer products in the shoe, paper and Dackaging markets.

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r A Medium and nign tottage underground Puu g gener cistncution cable insuiated with  ;* i til

%3RDE(nas many advantages over competitive matenals. kORCEL orences h r. . 1 O

Q encenent resistance to treeing an: failure caused by nign voltage. contaminants  ;,;x;,ygg y1 k

and stress.

P M Y. C 9 Fascsa parts contamong NORCEL offer &n 7 ,' p3 a-excenent toughness and recovery from e1 r: sa -h cetermation as well as exceHent resis- '4W

- t [U tance to umcact and distortuon. The nign  ?- & WV temceratures normally encountered m paint take ovens do not ekster ptrts contammg NOACEL h;

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NORDEL otters an enceilent Datince of . .fj.dgf*.'

economy and exceptional weatnerabier ty , . . ,

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in direct sun, trooical humidity and chill- El ing colo. The roohng membrane can to apphed by a vanety of metnoas over Q

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O O NORCEL has excedent eiectncal orocemes and is suitante for nign voltage caels insu:ation. It withstancs heavy corona c;senarge

• snout sustarmng damage g;G p, 9.,,d Good onysical orecerties ot NORDEL M NL make it iceal for use in connectors and otner efectpcal accessones.

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E Raciator nose tuce ano cover of NOROEL has good retenten of properties atef heat aging anQ gocQ comprtssIQn set y resistance NORDELprovices excetient n- . _ _ _

resistance to coolants. $F'fS

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, F Taillight gaskets of cettular NORDEL . . , y,-

provide a suCerior seal Dy virtue of its

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ence:ttonalty low densdy and uniform " [-

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NORDEL' were=omneu a versatile rubber with excellent heat, weather and orone resistance NORDELS is an EPDM rubber that possesses many important design properties, inc!Uding:

-

• Resistance to temperature extremes. e HEAT-General-purpose compounds of NORDEL hydrocarbon rub-ber are serviceable at temperatures of 125145'C (257 293'F ). Soe-cial compounds can be formulated for continuous use up to 155'C ,

(311'F ) and in intermittent service up to 185'C (365'F ). (NORDEL is not flame resistant.)

COLD-Conventional compounds of NORDEL are flexible and serviceable at temperatures as low as -50'C (-58'F). Special compounds can function down to -68'C (-90'F).

• Outstanding ozone and weather resistance.

• ExceIIent electncal properties for high-voltage insulation. Withstands heavy corona discharge without sustaining damage.

• Can be compounded in any color and resists discoloration and fading in outdoor exposure. l

• Resists s' tack from many acids and alkalies and provides outstanding servica with hot water and high-pressure steam.

' dood abrasion and tear resistance, even at elevated temperatures.

NORDEL is widely used in automotive and appliance components, garden and industnal hose, wire and cable insulation, electrical acces- .

sones, single-ply rooftng membranes, and a vanety of other molded and extruded parts for manne, agricultural, industnal and consumer applications.

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t A. 8 VAMAC is used in underhood and g transmission etectncal applications e. e. y Decabst of its esceHent caiance of heat.

1. 2 cet and aorasion resistance along with Q good e!ectncal properties. There'oro. . . >-

VAMAC is setected for wire jackets and .'.*.,Q,*.* O stip ht heat and oil sheaths. " ' * *

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C Coolant hose of VAMAC offers good . 1 o resistance to heat. oil and seiected . .a -"3'" -

cootants atorg witMow-temperature . l.W .411 6 h flexibility. 's S 0 VAMAC in engine parts provides good ,.., 1 $

W heat. fluid and wear resistance as well C~

as good Icw temperature stating ability. *. 2 These cuahties are important for vacuum W pump snaft seals and camshaft seats.

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, (e* I need resistance to hot oil and long temt h-retenten of sealing force.

• W E Ante and prop shan sea's of VAMAC have h(, 1,,

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good heat and grease resistance plus gf resistance to wear and compression set. g F Engine seahng part.t of VAMAC have good Ls 5 %gJ 0:5,6 h Lp high temperature performance. automatic tr ^ N. A a

transmission fluid resistance andlow temperature flesibility down to - 40* C , gg

(- 40* F ).

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G. H VAMAC has encenent damping charac. [

teristics aniCh make it ideal for steeneg $

i column isolation and crannsnaM dampers. r b xg; ..

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[ a moderstely properties priced, hot ell resistant rubber with good damping

(( VAMACS ethylene' acrylic elastomer should be considered for any

- application calling for a tough, set resistant rubber with good

. low temperature properties and excellent resistance to the comoined detenorating influences of heat, oil and weather.

['

s- Important design properties of VAMAC include:

5

• Resistance to temperature extremes.

• l' VAMAC ethylene' acrylic elastomer provides heat resistance sur-h- passed by only the more expensive specialty polymers. such as the

}, tiuorocarbon, silicone and fluorosihcone elast;mers. In mea-Tr surements of dry heat resistance. VAVAC outlasts other moderately pnced, oil resistant rubDers. Parts retain elasticity and remain func.

g tional after continuous air-oven exposures at 170*C (340*F) to seven I- days at 204*C (400*F). Parts of VAMAC will perform at least as long as parts of general-purpose NBR. but at exposure temperatures 27 l to 55'C (50 to 100'F) higher.

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• Exceptionally low compression set.

• Good vibration damping characteristics that remain nearty constant over broad ranges of temperature, frequency and amplitude.

• Good resistance to hot oils. l e Superb ozone and weather resistance.

3 e Outstanding resistance to hat water.

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• Good tear and tensile strength and flex life.

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• Low smoke emission when exposed to flame.

' g' Products trade of VAMAC include: boots seals, hoses, damping com-ponents, and cable Jackets for offshore oil platforms. ships and building 4

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se4Ce at nigier temperatures and .

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eini0sts premium fluid resistance. [ '_e -u.>'

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0 Fibe duct e:Cansion leints of VITON

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$ k .01ej temperatureg reaChang 280' C i$36' F )

And n'gn Concentrations of sulfuric acid 7.*.'

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formed at Deios oew point levers Joints fl 4 . . . I 'eN

$ I of VIION Can out'ast metathC 10 nts many 7*.g h.yQ tifnes ovef inere0V oftenng increased .i .f.f.gy releacihty long term Cost advantages i . a g g*,

and increased value in use. *[1#

C As Hue gas Cools. tne vocer portion of a

! Cnimney is esposes to Corrosive sulfuric l' {g g.g gg .

JCcd Car 00n steet DIste contes witts 1 rn .. . . . -f VITON is nrg'ity res<stant to flue gas

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m od eactoration VITON is usea m coan no'e on oniting ocerations ceCause (.. a .

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have Dee Oroven sucenor in stu@es on worter safe % Oloves Of VITON fo9 a l M** $ T Orotective $arter Detween hands and b

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j pm / :r o f is-VITON' a-meu one of the most heat and fluid resistant rubbers ever developed With over 25 years of field proven performance. parts of VITON have withstood hundreds of difficult fluids over a very broad temperature range, delivenng reliable service long after ordinary rubbers have failed. I

" its wide assortment of valuable properties include:

e Resistance to temperature extremes.

HEAT-VITON withstands high temperature and simultaneously retains its good mechanical properties better than most other elasto-mers. Oil and chemical resistance also are relatively unaffected by elevated temperatures. Compounds of VITON remain usefully elastic indefinitely when exposed to laboratory air oven aging up to 204'C (400'F) or to intermittent test exposures up to 260'C (500'F)

Continuous service limits are generally considered to be:

3.000 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> at 232'C 450'F 1,000 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> at 260*C 500*F 240 hours0.00278 days <br />0.0667 hours <br />3.968254e-4 weeks <br />9.132e-5 months <br /> at 288'C 550'F 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> at 316'C (600'F For fleeting exposures to 530'C (1,000 + 'F) where a rubber part must perform a function and then is destroyed. VITON often can provide the necessary temporary protection.

COLD-VITON is generally serviceable in dynamic applications down to -18 to -23'C (0 to - 10'F ), although special f ormutations permit 9 its use in dynamic applications down to -54'C (-65'F). Also.

VITON has proven satisfactory for static seals used under cryogenic Conditions approaching absolute Zero.

• Resists degradation by over 300 fluids, providing the best proven I. fluid resistance of any commercial rubber.

p;';i

• Excellent resistance to oils, fuels, lubricants and most mineral acids.

• 7* .

• Resists many aliphatic and aromatic hydrocarbons that act as sol-

, p' vents for other rubbers.

7; e Exceptionally good compression set values at high temperatures.

. M e Excellent resistance to atmospheric oxidation, sun and weather.

a!.

D.' e Excellent biological resistance.

e Goodelectncalpropertiesinlowvoltage,lowfrequencyapplications.

• Low buming charactenstics-halogen content makes it inherentty more resistant to buming than exclusively hydrocarbon rubbers, e Extremely low permeability to a broad range of substances.

The remarkable resistance of VITON to heat and fluids has improved performance of components for apphances, cars trucks aircraft and many types of industnal ecutoment Products made of VITON include:

gaskets. 0 nnos, seals diaphragms, cable lacketing, coated fabnes.

flue duct expansion joints. hose. tubing; plus a wide vanety of other articles such as gloves and special parts that perform under conditl0ns that can't be matched by other elastomers.

25

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REFERENCE # 180 1

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O REPORT NO. 4037EQ-00001-AML O CLARIFICATION: The normal radiation dose value in this report for inside containment was based on old criteria.

The normal radiation dose value based on the Igtest design criteria 4E019NQ1009 Rev. 7 is 3.5 x 10 rads (Containment room # 308 is in Other Areas Outside the Secondary Shield).

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