Regulatory Guide 1.99: Difference between revisions

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{{Adams
{{Adams
| number = ML12298A136
| number = ML12150A045
| issue date = 04/30/1977
| issue date = 07/31/1975
| title = Effects of Residual Elements on Predicted Radiation Damage to Reactor Vessel Materials
| title = Rev. 0 - Radiation Embrittlement of Reactor Vessel Materials
| author name =  
| author name =  
| author affiliation = NRC/RES
| author affiliation = NRC/RES
Line 9: Line 9:
| docket =  
| docket =  
| license number =  
| license number =  
| contact person =  
| contact person = Kirk M
| document report number = RG-1.099, Rev. 1
| document report number = RG-1.099, Rev. 0
| document type = Regulatory Guide
| document type = Regulatory Guide, Meeting Summary, Memoranda
| page count = 7
| page count = 7
}}
}}
{{#Wiki_filter:RE U.S. NUCLEAR REGULATORY
{{#Wiki_filter:EFFECTSOFRESIDUALELEMENTSONPREDICTEDRADIATIONDAMAGETOREACTORVESSELMATERIALS
COMMISSION
P.002July1975
A)REGULATORY
GUIDE OFFICE OF STANDARDS
DEV9LOPMENT
REGULATORY
GUIDE 1.99 EFFECTS OF RESIDUAL ELEMENTS ON PREDICTED
RADIATION
DAMAGE TO REACTOR VESSEL MATERIALS ,vision 1 priI 1977


==A. INTRODUCTION==
===6. Products===
General Design Criterion
7.T',,".po".tfot\
31, "Fracture Prevention of Reactor Coolant Pressure Boundary," of Appen-dix A, "General Design Criteria for Nuclear Power Plants," to 10 CFR Part 50, "Licensing of Produc-tion and Utilization Facilities," requires, in part, that the reactor coolant pressure boundary be designed with sufficient margin to ensure that, when stressed under operating maintenance, testing, and postulated accident conditions, (1) the boundary behaves in a nonbrittle manner and (2) the probability of rapidly propagating fracture is minimized.
t.OCCWI'*lon.II4It~
t.Ant" h'"A'0.Gen_,.15.ParOlgraphV.B.ofAppendixGdescribesthch:lsisfor~ettingtheupperlimitforpressurcasafunctionof temperatureduringheatupanacooldownforagivenserviceperiodintermsofthepredictedvalueofthe4.PoragraphII.BofAppendixHincorporatcsASTME185.73byreferenc
 
====c. Paragrapil====
4.\ofASTMEI&5-73requiresthatthematerialstobcplacedinsurveill3nccbethosethatmaylimitoperationofthereactorduringilslifetime,i.e.thoseexpectcutoluvethehiShc:aadjustedrefcrencetemperature octheloweS!Ch:lrpyupper.shclfenergyatendoflife,Bothmeasuresofr:ldiationdalll~gemustbeconsider~d.1.ParagraphII.HofAppendixGdetin~$thebcltlinl:inlermsofapredictedadjustmentofrd"erCnl.'Ctem.pcr:\tureatendt)fservicl:lifeincx.~e$Sof50
0 F: P:H;I'gr::lPh.~IILe:lndIV.Bspecifythe3dditionaltes:require-menIsforbeltli:1elnilteri:lIs tha!$uprlemcnttherequirementsforrC:lClOrVt'sselln:ltcrtJ1sgcner:!lly.
 
Cople tofp",~U*,.d9"itM.M.y ba ob,ain.d b.¥t,I"a"'aQ"'."'"dIC.t~9,~.d'wi,~".d.'.d'o,,,.
U.S.Nud.a,RaQ,,'a'I'''WComf"I.,iO"", Wa"'''''QltO
A , 0 C.:lO566.An"ID":DIr.Cla."file.ofSnd.,d.Oop".,.PDW.'R,.c,o'l2.A'c/l.ndrActo" 3.Jlaa"dMr,.l.FacUI,I.,4.E"~&,o'u",,,'nd SI.jI\DSM".ti.lt.~fIPI.,,\P,al.cti~~Co,.,me'UI.~o\llcfba n'to\hStC'.'.'Yn'COfllllM,.aion.


Appendix G, "Fracture Toughness Re-quirements," and Appendix H, "Reactor.
u.s.Nwt:I'A-aul.to,", CO"''''IU'Oft.


Vessel Material Surveillance Program Requirements," which were added to 10 CFR Part 50 effective August 16, 1973, to implement, in part, Criterion
W.,~i",O'O",0C.205li6.
31, neces-sitate the prediction of the amount of radiationdamage to the reactor vessel of water-cooled power* reactors throughout its service life.This guide describes general procedures acceptable to the NRC staff as an interim basis* for predicting the effects of the residual elements copper and phosphorus on neutron radiation damage to the low-alloy steels currently used for light-Water-cooled reac-** tor vessels. The Advisory Committee on Reactor Safeguards has been consulted concerning this guide and has concurred in the regulatory position.


==B. DISCUSSION==
An.,,'IOl'l:Ooclll.""Q.,,~
The principal examples of NRC requirements that necessitate prediction of radiation damage are:* Research and construction experience with low-residual-element compositions of these steels is accumulating rapidly and is ex-pected to provide a firm basis for acceptable procedures in the near future."*Lines indicate substantive changes from previous issue.1. Paragraph II.H of Appendix G defines the beltline in terms of a predicted adjustment of reference temperature at end of service life in excess of 50 0 F; paragraphs III.C and IV.B specify the ad-ditional test requirements for beltline materials that supplement the requirements for reactor vessel materials generally.
S.""ie.SeCtio


2. Paragraph II.C.3 of Appendix H establishes the required number of surveillance capsules on the basis of the predicted adjusted reference temperature at the end of service life. In addition, withdrawal of the first capsule (when four or more are required)
====n. NRCPDR====
is to occur when the predicted adjustment of reference temperature is approximately
50°F or at one-fourth of the service life, whichever is earlier.3. Paragraph IV.C of Appendix G requires that vessels be designed to permit a thermal annealing treatment if the predicted value of adjusted reference temperature exceeds 200°F during their service life.4. Paragraph II.B of Appendix H incorporates ASTM E185-73 by reference.


Paragraph
==A. INTRODUCTION==
4.1 of ASTM E185-73 requires that the materials, to be placed in surveillance be those that may limit opera-tion of the reactor during its lifetime, i.e., those ex-pected to have the highest adjusted reference temperature or the lowest Charpy upper-shelf energy at end of life. Both measures of radiation damage must be considered.
REGULATORVGUIDE1.99JUL-15-201009:09OFFICEOFSTANDARDSDEVELOPMENTU,S,NUCLEA.RREGULATORYCOMMISSION<:en~r:llDesisnCriterion31."FracturePr~ventionofL':IL:torCoo1:lntPressureBound:HY:'ofAppendixA.CeneralDesignCriter;:\forNuclearPowerPI:lnts:'to i0CFRPartSO,"LicensingofProductionandUtilil..:l'lionF:lcililies:'requires,inP:Ht.thatthereactorl:tloi,Jn1pressurebO~llIdarybedesignedwithsufficient2.P:HaMal'hll.e,3of AnpenCIiXHemblishcsthcmargintoensurethat.whenstres~edunderoperating,0'..maintenance.testing,andpo~tul:lted3cdd~nlcondi.requirednumberofsurveillancecapsules
01\thehasis~lt'
[ions.(J)thebound:HYbeh:ivesin Jnonbrittlemannerthepredicted.adjustedrel'crence,cmpcratur~
31thecnllnnd(2)theprob:lbilityofrapidlyprop:lgatingfractureisofserviceIife:.)nadditio


5. Paragraph V.B of Appendix G describes the basis for setting the upper limit for pressure as a func-tion of temperature during heatup and cooldown for a given service period in terms of thepredicted value of the adjusted reference temperature at the end of the service period.The two measures of radiation damage used in this guide are obtained from the results of the Charpy V-USNRC REGULATORY
====n. withdrawalofthefirst====
GUIDES Comments should be sent to the Secretary of the Commission, US. Nuclear Regu-latory Commission, Washington, D.C. 20555, Attention:  
(.'3p-minimi1.cd.Appendix C,"FractureToughnessRequire.sulc(J:1enrour'or m"rc:lrCrequired)isto
Docketing and Service Regulatory Guides are issued to describe and make available to the public methods Branch.acceptable to the NRC staff of implementing specific parts of the Commission's regulations, to delineate techniques used by the staff in evaluating specific problems The guides are issued in the following ten broad divisions:
1I<:('1IC whenments:';mdAppendixH."RcactorVesselMaterialthepredicted:::Idtustmcntofrcferencetcmpcr:Jlureis Surveillar.eeProgf:lmRequirements,"whichwcreadded:lpproXiinoi'tety.:'SO
or postulated accidents, or to provide guidance to applicants.
FOfnton


Regulatory Guides are not substitutes for regulations, and compliance with them is not required.
====c. fourth====
01theservicetife._to10CFRPlIrtSOeffectiveAugust16.1973.to"~~~;vct.isearlier.impJ::mcnt,inpart.Criterion31.necessitatethepredic-/;j;~\,:.:.".tionoftheamountofr3diation<.iamagetotherea:tor;~:~
..'~~:t':,).ParagraphlV.CofAppendix Crequiresthai vess~l~fwater-cooledpowerrellctorsthroug~?ut"i~.~~.~xesSelsbedesigned
10permitathermallInnealingtee:!t-serVIceIIfe.'-:"':~,"mentifthepredictedvalueofadjustedreferencetemper..._.._.~;"..":>', ,Xatureexceeds200&deg;Fduringtheirservicelife.


1. Power Reactors 6. Products Methods and solutions different from those set out in the guides will be accept- 2. Research and Test Reactors 7. Transportation able if they provide a basis for the findings requisite to the issuance or continuance
nBSgUidedescnbesgeneralprocedurCS':lcceptabfe:'to'theNRCstaffasaninterimbasis.for:,predictingthceffectsoftheresidualelementscopper and, phOSphorusonneutronradiationdamagetothelow:..dloysteelscurrentlyusedforreactorvessels.
3. Fuelsand Materials Facilities
8. Occupational Health 4. Environmental and Siting 9. Antitrust Review of a permit or license by the Commission.


5. Materials and Plant Protection
..;::<":.;t B.'b)~9OSSI.0N
10. General Comments and suggestions for improvements in these guides are encouraged at all Requests for single copies of issued guides (which may be reproduced)  
.;,"'...1/Theprincipar~'cDinples'.\~fNRCrequirementsthatnecessitater..re~.ttionOfpdia~iondamageate: ,L':1'"'~s-...~.-I':,~"";.
or for place-times, and guides will be revised, as appropriate, to accommodate comments and ment on an automatic distribution list for single copies of future guides in specific to reflect new information or experience.
,~"'~;.-:I.".Rc!:e:Jrch
';Siciconstructionexperiencewithlow-re~iduJI.clementconi~tjonsofthesesteelsisaccumu1atinl:rapidlyandIscxpcCtM
to provide:I firm basis for accept:lbteproceduresinIhenC:lIfuture.uSNRCREGULATORYGUIOeS
Aag",l.f.''''GWld".'""ed(0d(IlW A",d",ake'".1)1.tothe lP"bl i C__'''o.dl.-CC.'Hable te.t\.PlAC.uft of i"'v1a""'.""''''
II).ci'ic C'A'"6',,,.Co_Mi;O"-'
,.ow'atiO"I,1041.""<<_'.C""'q".'",.dby t".I.a"''''..1".t~f"'lgIpeot,ffcp/O".""01po.,,,I.,.4!I.


This guide was revised as a result of divisions should be made in writing to the US. Nuclear Regulatory Commission, substantive comments received from the public and additional staff review. Washington, D.C. 20555, Attention:  
ccid.,,",.
Director.
or Ie, O,owld.gUtd."C'10.ppll.~c.,.u.A.vwf.:CtyGu.de.ara"'0'tub.li",
tf'-..,ul.,.o".
Ad co",pliance".if:'\till'''';'1\01'.Qut'ad.


Division of Document Control.
M.'''OdaI""101".Ito." d,".'.'"r,a.~11\0'.,
GO'." t'"1".4"_~U tt.acc.prtb1a" the,"'0'11'"aba'lasfo',"','Iftdi"e'HQV1t.c.to""'su."C'0'
COf\t"n,.ftC'0'p.,,,,i'0'Itc.",abyt.., COI'I'''''llo'IiOf\.
Co'""'111'\\1d1aUQg.'(;.o.,.to'il"p,o",'''''41''U'"''''0'.Q""are onCoo.""QldaU,,""'.,."ItQyt~."willb'.!lI,d.ap~IO"I1.'.,toat:to~"'Od.t.


notch impact test. Appendix G to 10 CFR 'Part 50 re-quires that a full curve of absorbed energy versus temperature be obtained through the ductile-to- brittle transition temperature region. The latter is located by the reference temperature, RTNDT, which is defined in paragraph II.F of Appendix G. The"shift" of the adjusted reference temperature is defined in Appendix G as the temperature shift in the Charpy V-notch curve for the irradiated material relative to that for the unirradiated material, measured at the 50-foot-pound energy level or measured at the 35-mil lateral expansion level, whichever temperature shift is greater. In using published data that report only the temperature shift measured at the 30-foot-pound energy level, it has been assumed herein that the adjustment of the reference temperature is equal to the 30-foot-pound shift.The second measure of radiation damage is the decrease in the Charpy upper-shelf energy level. In the absence of a standard definition, the upper-shelf energy is defined herein as the average energy value for all specimens whose test temperature is above the upper end of the transition temperature region. Nor-mally, at least three specimens should be included;more specimens should be included when the shelf ,level appears to be marginal.
co"'."'a"".,,4'0,.fI.ctn
11\'0""."0,", 0'."O_'''''C.How,',CO"'
O"" 0'" (hi,8",.dtf'.iO.icJ1...,iU,u, abou'''''0""OAt"f'.1Ihi".wane.w11l!),a III."ftC"''''ut.,1''''"".'"aU"Qfh.d'0'
a"..,ty,",i.,o".ReGULATORYGUIDE
','JUL-15-201009:09NRCPDR P.003 JUL-15-201009:102.Fornewplants,there:lctorvesselbeltlinematerialsshouldhavethecontentofresidualc:Ienlentssuchascopper,phosphorus.sulfur.andvanadiumcontrolledtolowlevels.ThelevelsshouldbesuchthatthepredictedadjustedrefC!rC!ncetemperatureatendoflifeislessthan200&deg;F.'
0, IMPLEMENTATIONd.Applic:ltionoftheseprocedurestomaterialshavinRresidualelementcontentbeyondthatrepresentedbythecurrentdatab:lseshouldbejustified by submittalofdata.P.004ThepurposeofthissectionistoprovideinformationtoapplicantsandlicenseesregardingtheNRCpa(r~plansforutilizingthisregulatoryguide,Thisguidereflcctscurrentrcgu1:lt()rypractice.There.fore,exceptinthosecasesinwhichthe3l'1plic:tntproposesanacceptablealternativemethodforcompI:,.ingwithspecifiedportionsoftheCommis.~ion'sregula.tions,thepositionsdescribedinthisguidewillbe lIs..:dbytheNRCmff
3S follows:I.Themetroddescribedinregulatorypositior.C.IofthisguidewillbeusedinevaluatingallpredictionsofradiationdamagecalledforinAppendicesGJndHto10CFRPartSOsubmittedonorafterJanuary15,1976;
however Iifanapplicantwishestousctherecommcn-dationsofregulatorypositionC.Iindevelopingsub-mittalsbeforeJanuary15, 1976,thepertinentportionsofthesubmittalwillbeevaluatedonthebasisofthis guide.2.Therecommendationsofregulatoryposition<:.2willbeusedinevaluatingconstructionpermitappli-cationsdocketedonorafterJanuary
15,1976;however.ifanapplicantwhoseapplicalionforconstructionpermitisdocketedbeforeJanuary15.1976,wishestousetherecommendationsofregulatorypositionC.2ofthisregulatoryguideindevelopingsubmitt:JIsfortheappliCOltion,thepertinentportionsofthe.:IppliCOl tionwillbeevaluatedonthebasisofthisguide.NRCPDRApplic.ationoftheforegoingproceduresshouldbesubjecttothefollowinglimitations:a.TheproceduresapplytothosegradesofSA.302,336,533,and508steelshavingminimuml'pecifiedyieldstrengthsof50,000psiandunderandtotheirweldsandheat.affectedzones.


However, if specimens are tested in sets of three at each test temperature, the set having the highest average may be regarded as defining the upper-shelf energy.The measure of fluence used herein is the number of neutrons per square centimeter (E>I MeV). An as-sumed fission-spectrum energy distribution was used in calculating the fluence for most of the data base.*However, for application to a reactor vessel, the calculated spectrum is used to predict fluence at a given location in the wall. This procedure is not in-tended to preclude future use of data that are given in terms of neutron damage fluence.As used herein, references to "% Cu" and "% P" mean the weight percent of copper and phosphorus as measured in the surveillance program per ASTM E185-73. However, if such results are not available, the results of a product analysis may be used.Use of the procedures for prediction of radiation damage given in the regulatory position should be limited to irradiation at 550 +/-251F, because temperature is important to damage recovery proces-ses. As a guideline, irradiation at 4501F has been shown to cause twice the adjustment of reference temperature and irradiation at 650&deg;F, about half the ladjustment produced by irradiation at 550OF for the fluence levels and the steels cited in the regulatory
%P'"weightpercentofphosphorus.If%P 40;0.008, use 0.008.b.Theproceciuresarevalidforanominalirradia-tiontcmperatureofSSOQF.Irradiationbelow525&deg;Fshouldbeconsideredtoproducegrealerdamag
*The data base for this guide is that given by Spencer H. Bush,"Structural Materials for Nuclear Power Plants." 1974 ASTM Gil-lett Memorial Lecture, published in ASTM Journal of Testing and Evaluation, Nov. 1974, and its addendum, "Radiation Damage in Pressure Vessel Steels for Commercial Light-Water Reactors." position when the copper content is about 0.15%. The effects of irradiation temperature on decrease in shelf energy should be considered qualitatively similar to those cited for the adjustment of referencej temperature.


Sensitivity to neutron embrittlement may be af-fected by other residual elements such as vanadium and by deoxidation practice, as indicated by the findings of current research.
====e. andirradiationbove====
575&deg;Fmaybeconsideredtoproducelessdamage.Thecorrectionfactorusedshouldbe justified.IfthevalueofAobtainedbytheaboveexpressionexceedsthatgivenbythecurvelabeled"UpperLimit"inFigureI,the"UpperUmil"eurveshouldbeused.If
%Cuisunknown,the"UpperLimit"eurveshouldbe used.Ch:lrPyuppel''Shelfenergyshouldbeassumedto decrease uafunctionofl1uen~andcoppercontentasindicntcdinFigure2,withinthelimi~listedbelow.In.Icrpolati.onispermitted.AsillustratedinFigureIforselectedcopperandphosphoruscontents,the:lboveexpressionshouldbeconsideredvalidonlyforA>50&deg;Fandforf
<6 X la'9'n/crn'2 (E>1 MeV).c.TheexpressionforAisgivenintermsoflluenceasmeasuredbyunitsofn/cm
2 (E>1MeV);however,thec:xpressionm:lybeusedintermsoftluencc:
asmeasuredbyunitsofneutrond:lmagefluence,providedtheconstant10
19n/em:(E>1MeV)ischangedtothecorrespondingvalueofneutrondam3.ge fluenc!!.
!o to z~o'l:l o~....o c...c:=r--1....m I tv o....o 56 4 3 2 81 10 19 56 4 3 2 81 10 18-4 56 32X10 17 400UT~:~~::U~;'.1.:.)::'j:"FTJ:;::1:;."j.'.1,..:'1':'I:;::l:~::.'..:.':.:::;l::::::::'::::::::
.::f;~350~::1:::~::1>.~:-r":-..;:-
:.:.!~t.I-:'~...i:-::-:':.:-~..;':~J:::':":-:::
:'+-:-:r:'k-~;:::::.:-:---:_-.
:-::-7-7-.;::::::::~~.:::'
300 iii::;ii: i:;~~<::;~f:i\.~.14("100~(%Cu..0.08)7.500~'I%p'~~
..008)i"no19j~"::::::::::::::i::.::::::~~':';::
~J1...'"".,........!I~...250'+S8:j~..--j..8.-I LI J:.-::.:::':::.;-l"'W..L~..~V~!/~.200':::f.,:::~~~C~~.~1~li~T'jT:-'tn it t~:>I).u7 c.09 t0 n:-::;;;ij,;,;(J;;:--:-%P=0.008'::..:.::.:'I'::::.:.1::'::::::J......,;;;,'~..-...../:.i:.,;.;,.,tI':..;;~
...,;,.<!ii:::::::::I::::':::';::f"::::':"'::"'.::1-:..:::.~\tf\\1.~......:~:-:,.;'~::~:~7:::::::;::~::::
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/'.'.'!d:!:.~..-c.f:::}:~~
..'.',1><....""~cl-i'~,.:, 1:,:,iiJ.1<;jl.h.


In predicting radiation damage for materials that differ in chemical content or deoxidation practice from those that make up the data base, such findings should be considered.
1"1 IOO:,:!!!!!
li!!'!i!i;!i:~~~~~;B'~
$~~~~'m~0f~~t~i;~~o
@@50 1".:.'IOt.".,k..,."k lo'..V".y.(:/.::::::r.'L;.f:.:1"~..--........,.~I~:h
-.,;'1-.'-r'...,.;.."r l 10",.~X:~'~.~-..;.'-"i.T_-~,1:\:.,..-~.
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II J:'-,:...."'%C"025';"..:."~'.";.".
'ful:'T:'''-'10...............-,.--;-...:...:.lOWERLIMIT.u.,~_"Cu~0.20,,"el>'"015 II"',~-,-..-.,--.-.-....-..
I'~miir Ii';I'r i: I i!.!i!i!1 i~~:r~IT:.:, r-;-nit~T.-;c'i~';'
.'~ti!"~if ii:[~-r,:.f;,JW';t!l.:.;'~
:~i1m~].....,.,.;.".'.II
"'j"'I.;;I~:1..........................._....."'1'-._-.:'""i1o:ti:t:t~;',~.:~Hi!~it;
t;Ii::;::;;::::::::::.:
i:;I:::::::::':'1:::::::::::::.
::::::::::::-J~~:.:.:'
':'1:'::i;:.;:::::~~E:1~1"#u.0 0..:J..'"~K E (;>I-0>U C'"..'"..Cl Cl:...0 i: II>E....:J:0:.0\0 c:(~"D II>ti:0'".t 4,"Fluence'cm
2 IE>1MeV)Figure1PredictedAdjustmentofReferenceTemperatureasaFunctionofCopperandPhosphorusContentandFJuence.


Other residual elements, notably sulfur, impair the initial Charpy shelf energy of these materials, and their con-tent should be kept low. Clearly, it is the remaining toughness at end of life or at some other critical period that is important.
'l:l o o m
~(~.c...c:: L'I....01 I tv o....o o U)....o z::>j o"(l t::l::>j:::I-.;..~:L-=:--.~-r-.''O-:-,-:.:.;--i:::;
-.-~_.-.:::I:.::I:~::I:::
.~:::::;:::~~...::--.;:::::.::.-~:.-~)\'::j::::L:~:~: ,.'i~'.~~~'1..+fF-Ii ,.t1..-......~20"~h;':~%COPPERtl~-..:.~.,"'';';;';~_..-~~-..:.::::._:-~;.~,._.~-..:"I'~'i'i.~'I"::;:;::;;'_~;_,.,::..'::'::':~:::::::.:..,..-._..;.~.,~::,:::::
H IIhBase.!.,'Welds.""Iilr"-'-~..~...'~I-~:':':';~~.---:::;:.:-::-~:.:'-'~,_.:1Ii~Me I": "~'I",;"","~[1":..~-:.,~~_..,.-.-.-.~.
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't.,30.~m.,.:l4l.20~7]:~~':S~?~~;:::::
~~?~~;:~r::'
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::~;:Irml:~::'::::h;:::.
'1 tI., 1'Tr.;~:""_._I_,_!_I_LI.~~............:,-1"'"'f"T"1.....::,:.'.'.'
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~~~~I~~~~~~~:~~~~~~~::~~I:-~~!:~.~~-
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IcHjl-t,.;:-!,.I'.,1....',j'":'_..roo;-.J 1+t 1~I~J-r"~....,.,......1.L--1_.""-1TI;l.'r,-".:'~,itj:'" r'!,;:-1.-,.=1,.1.++t Hr~~~...,.:~~::~;!:...~t~I.~~_~.L._~.
TIl"..~n P~jnr~.~.~f~~~!!~i g~~g~~~n:~t!f',i.f~H~gg~~i';~~~~~;~~~U~~:~~~~~j-:~'.!_:: mt., c B...ll>0.~..4U c: W..'ii.r.(I).5 4U;I"" b 4U C'0\()v..2Xl0 17 3 4 56 81 10 18 2 3 4 56 81 10 19 2 3 4 5 6Fluence.n/cm
2 (E>1MeV)Figure2 PredictedDecreaseinShelfEnergya~aFunetio;)ofCopperContentandFluence.


Such toughness may be given in terms of the margin between the operating temperature (nominally
I I;I tTl.'..~'\."';'.'-.',~.,...,,';';";:I....''".:
550&deg;F) and the limiting temperature based on toughness.
,:,.'.~'l.~l:''..-"'",'P.OO?UfCJnI)SJ:A:t'D
N~IE(Jttf.Ai1OIY~~ON
W~~6.c..'"F,ebruary1.


A margin of 200 degrees is desirable to permit safe management of system transients.
19'7NRCPDR PROPOSED'REGUlATOR\'
GljIIJ)EJ.99.ReJ1510N1.


At full power, the limiting temperature based on toughness is generally
I~FFscrs OFReSlOOA1,;..ELEMENTSON
150-200 degrees above RTNDT; hence, the latter should not exceed 150-2001F
PRED-ICTED:RA&lAJ"ION
at end of life. This limit also avoids the problems of providing for annealing, per paragraph IV.C of Appendix G. The levels of residual elements such as copper, phosphorus, sulfur, and vanadium that are required to achieve the limit of 200'F adjusted reference temperature at end of life in a given reactor vessel will depend on the initial values of RTNDT of the beltline materials and on tle" predicted fluence at the particular locations in the vessel where the materials are used.When surveillance data from the reactor in ques-tion become available, the weight given to it relative to the information in this guide should depend on the credibility of the surveillance data as judged by the following criteria: 1. Materials in the capsule should be those judged most likely to be controlling with regard to radiation damage according to the provisions of this guide.2. Scatter in the Charpy data should be small enough to avoid large uncertainty in curve fitting.3. The change in yield strength should be consis-tent with the shift in the Charpy curve.4. The relationship to previous isurveillance data from the same reactor should be consistent with the normal trends of such data. I 5. The surveillance data for the correlation monitor material in the capsule should fall within the scatter band of the data base for that material.1.99-2 C. REGULATORY
D~ETO~W'sset.KATSRIAtS,.
POSITION 1. When credible surveillance data from the reac-tor in question are not available, prediction of neutron radiation damage to the beltline of reactor vessels of light water reactors should be based on the following procedures.
and re.coDlcn4eda'ppr.wta.lsUbjee'ttotM
f:tJl1.ow.tt;e
~b~1.L SO'BJECi:~y OF R!!CUUroltr p.f~rae-etrS
aEVZ;C)f CO~t1T2!fE&#xa3;TlNG NO.S7.JANUAAY14,1977~JtQiDtJa4FOU;~
v.Go$Sick,~S~eC't1tjv~
Oirec'tor for OpeTn.i01~
pam!kE.G.C3::!~.
Ch:ti.~, flegr;tb.tory a,-ql).i~nt:s
~.\fi~CQmmi~ee~OI!IIIri;t:.t';~e~onaen~srefer t:o th.e draftd.is"tribut:ea~t
~hc~~t.!'ti.ngd~l:ed Jmuary 19'77.t'a.thO'r than the-cfr'3:ft4.1nrlboll~ed wi.th~he age-nda d:I~ed~pt:~'l:>er
19'6.a~.'the foot1'lotitonres;e'.
;r;;i1 and con~tl'U<:d9'!-
~x;':ience.onp.age Iof"t.tteproposedr.~i~ion shouldbe~at\de:d tQimclud:ethe woN'i"'i eoncernin.g the ami~a.tioA$
oft:begui-d$
sugg~st ed by:t1t~O'fficoof'
*uc1:ea~RC:~la~
Res:ea~h.b.'TheCommittu eharacteri:biJ
pacagr-a.phs C.l, C,2..andC.4ofthe:proposed,Regul&tory Po.s1t:ion
8$Cat;e;s.?r;'
3-baGlfjt r~i.ec1;.amipar~~a.phC.3a.sCa'teiOTy1-nobaetl'fr':",._._~..
" , ,"2.PROr05ED
REGULATORy GUlDE l.XX,"AC~9'!'AaiE'~f1.A.~'<ELAnDSTA'TIST1CA1.MEnt:it>5r:ORANALYSISOFFUEL D&~SrHo..TI:<l\l, e'T~.dfoundth'.J;tthe pNpQ-5Cc!.
Regulatory GUl-der~~e~ent'ed~
Llccepeabl,e
=od,dlind.,.pproprb.'t4:
_~hIXb&#xa3;Q'~;m~lysi$cif\1~l d.ensifi~..at.:ion df~~~.U:t:ili~'t:i<)tl of such~h omd Ille-thodsinthe Hcensin,spJ"t)e~.s~bCluldbe illq)leM:n:t:~
in ac~o.rdance wit~10 CF~S().4~3~t..her~la:t"dApp.m4ix Ieto10Cfa50.':~.g002O'"lQ~/OSr.DRAFT REQJU'1DJtY
GUID&#xa3;I.XU,I?i$P&#xa3;CfIONOF
WAr.a CO"N'rROt S'T'R;-ucnrRP..:S
ASSOCl'ATED-wl1aNU(';.LEAA
PLkVl'FA'CIL!1'lS~'(1)R.AfT"A", OAT,&#xa3;O~~&#xa3;R.17, 197:6):mdr~endedap;>royalsubieett.o t:h-'i1 fO'U.~nz CQal.enU;~
~1fre-Collll:l:i~l:ec~OJmrn:mt.:~
reffn'to r.:~<ira,it guide dist:ribti':C!'d IJa.t t!\;~~~Q.nE'.ch.~ft!'~~cmbn16.19'16.r'3the:r than the drAft d.t~.tl':fblltedwi:~t'hth.


a. Reference temperature should be adjusted as a function of fluence and residual element content in accordance with the following expression, within the limits below and in paragraph l.c.A = [40 + 1000(% Cu -0.08)+ 5000 (% P -0.008) ] [f/ 1019]where A = predicted adjustment of reference temperature, OF.f = fluence, n/cm 2 (E>l MeV).% Cu = weight percent of copper.If % CuK 0.08, use 0.08.% P = weight percent of phosphorus.
*%tmd:*QA:Ud S'Cpt'crm\l)C!c
17 t 1~r16.JUL-15-201009:10.,II r 1 II'"I"loll'",\'." ,I.I r ,'I(,I'.
.........
_.~."._..."..............
_._..,....._--_._...._.,.,....:.........
,-P.008_,NR_C_P_D~"""'''''III'''''',"_.IIIlIl_''''_lInlllillllll_IlWlIUIIII&l__:m1lIln_IWII~
il,p The-CQIIlIlj,t''tee-,revi,eoN
of t~jis poroposedgu,idl:"'':'51 fllli'1::ed toits.~lic~bH.ityand-
~cceptabi1hy with 1'egard 1:0~M eOf)trel~~!'I)CUs+es wtJicl'l could~rfel:t::adioloJ;i~lsafe~y.


If % P5K0.008, use 0.008.If the value of A obtained by the above expression exceeds that given by the curve labeled "Upper Limit" in Figure 1, the "Upper Limit" curve should be used. If % Cu is unknown, the "Upper Limit" curve should be used.As illustrated in Figure 1 for selected copper and phosphorus contents, the above expression should be considered valid only for A >50&deg;F and for f( 6 x 10'9 n/cm 2 (E > 1 MeV).b. Charpy upper-shelf energy should be as-sumed to decrease as a function of fluence and copper content as indicated in Figure 2, within the limits listed in paragraph l.c. Interpolation is permitted.
1hepr.opos,~d piesMu1dbe:.'*Zld~th,WUi~t: U:]cl'Ut1tn~",h~~itle)ro z:e.1::crrh thi~lai,tr&:tiQ1.i.b.The prmi'O'ntSY5t:a=
:o~Co=itt-eoech~1"&Ct'eri,;<tti.an of t.he bac.kiit PQt:ental o-f;u.opos-ed guides fo'!'opeTa:tin~plllJ.1)t,Scanand should he!applied to sundarti~%~
plJlf1~5;i.e.ClILegory 1-need l\~b~applied to st3Ada~iz'@(.\p14nu;ca..'teeOTY
2-Stppl:leabi,1'i ty to~anda.:.rdi:ed'
plan'ts:U$~'be ded.:d~~y~RR on a ca-se-.by-eau bas,i,,;Cat~,<>r.y3--ll!1JS'tbeappH<<1tosUJ'ld.lu"d.hedplan.t;s.~eExecutiveSC'<:':"e~~:yshould dtIf.Clop andcin:ula:t.efor Comait;~ee C~tsrith'in2?'~",ks a p~posed r.evis-ion r:(~the.d.cfinl t:ions of o3<;l:fit ca'eegot:i:e$
p:r~iouslr es~bl b~ed by the CQlIDi't:t~,in~eting NO'.31f~e1IJ~:ratld~
tot,.~'.Cossid dat.odS~pteJlbeT24,1975)tha:i-ncl,udest:heseaddltion, conee,ming stflDd:ardi.ud.plall'ts.andclarUioes,as n~e.$s,~:ry.


c. Application of the foregoing procedures should be subject to the following limitations:.
t.he applic.a.bilit:yofCCIllIlZSitt'e.e-co.nside:red guidlt'$to cus'tQmp,i3ntsW'it~
(1) The procedures apply to those grades of SA-302,. 336, 533, and 508 steels having minimum specified yield strengths of 50,000 psi and under and to their welds and heat-affected zones.(2) The procedures are valid for a nominal ir-radiation temperature of 550&deg;F. Irradiation below 5251F should be considered to produce greater damage, and irradiation above 5751F may be con-sidered to produce less damage. The correction factor used should be justified.
CPs.a-Gu-idan:ceont.~ci:mple<.IHm,UtiO'[l of regulatory guides fpr standardi~
l\Uc.l~a'r
'power.pl-c1n'~s should be in.c.lad'~
in are"1isitm to WASii-1341.


(3) The expression for A is given in terms of fluence as measured by units of n/cm 2 (E > 1 MeV);however, the expression may be used in terms of fluence as measured by units of neutron damage fluence, provided the constant 1019 n/cm 2 (E> 1 MeV) is changed to the corresponding value of neutron damage fluence.(4) Application of these procedures to materials having chemical content beyond that represented by the current data base should be justified by submittal of data.2. When credible surveillance data from the reac-tor in question become available, they may be used to represent the adjusted reference temperature and the Charpy upper-shelf energy of the beltline materials at the fluence received by the surveillance specimens.
ra.ther man tn 1&regulatory gui~.b.The C~t.~eele'avesto th~5"t::tff thedevelopmentof appZ"Opriat.e meulkb~nc;l~~:5to~~:t:ili;ed fer aasuring t1gt the i,n~p6C1:i~.
~orv~illarice.


a. The adjusted reference temperature of the beltline materials at other fluences may be predicted by: (1) extrapolation to higher or lower fluences from credible surveillance data following the slope of the family of lines in Figure 1 or (2) a straight-line interpolation between credi-ble data on a logarithmic plot.b. To predict the decrease in upper-shelf energy of the beltline materials at fluences other than those received by the surveillance specimens, procedures similar to those given in paragraph
an4lor t;e~'tr~uheJne."'l~$Set f'O:"th J:Dtheguide a;re-lHlt by1k.ensees.c~~(DP1of)should dCVlelop s W::~?!!..~!t~~2:.~95.~~,!*e$
2.a may~be fol-lowed using Figure 2.3. For new plants, the reactor vessel beltline materials should have the content of residual ele-ments such as copper, phosphorus, sulfur, and vanadium controlled to low levels. The levels should be such that the predicted adjusted reference temperature at the 1/4T position in the vessel wall at end of life is less than 200 0 F.
for i~l (!lI'f~~ing t:he c.oc:..a.iUt:'4'S
reCO~ttron'S
conc.l!'T1ling ba.clnr-,:o.'t.~'f.ia1of.....;;!tan'i~S
;n~.gul~tory re~tJir.C:Qi&#xa5;en;uto~ho:>e&#xa3;itJecific plants nothav,"1.,opor>:'ftg
1L<<".~""t'>r~.:, (2:~/n;C.I~~.C"'-a~.rr;la,n~~Ha1to.ry Rfl'q'.:~r~en:ts Re:vie:'lt C~lit.tee 4,.PIOPOSED.RSV1:5ION21U~EGUUTOR.YG1JTD!
1..Z2."CRITERIA FO.R Sl\FfTY R.Eu.no-Eu:mlC PowasvsracsFORNUCLEAR
Pr;l1l'ERP~"TS'md tecomaended.a:pproval.


==D. IMPLEMENTATION==
The COllllittee~~m'zedthis pide as Ca~gory.3~ba.ck.fit reqo,ired~
The purpose of this section is to provide informa-tion to applicants and licensees regarding the NRC staff's plans for utilizing this regulatory guide.This guide reflects current regulatory practice.Therefore, except in those cases in which the appli-cant proposes an acceptable alternative method for complying with specified portions of the Commis-sion's regulations, the positions described in this guide will be used by the NRC staff as follows: 1. The method described in regulatory positions C. 1 and C.2 of this guide will be used in evaluating all predictions of radiation damage called for in Appen-dices G and H to 10 CFR Part 50 submitted on or 1.99-3 after June 1, 1977; however, if an applicant wishes to use the recommendations of regulatory positions C. 1 and C.2 in developing submittals before June 1, 1977, the pertinent portions of the submittal will be evaluated on the basis of this guide.2. The recommendations of regulatory position C.3 will be used in evaluating construction permit ap-plications docketed on or after June 1, 1977;however, if an applicant whose application for con-struction permit is docketed before June 1, 1977, j wishes to use the recommendations of regulatory'
._e_"~)f_,...,.'"":11'"._..~._.:J.._._
position C.3 of this regulatory guide in developing submittals for the application, the pertinent portions of the application will be evaluated on the basis of this guide.4 1.99-4
s.P:ROOOSSl RfGULAWRV GUIDf 10.XX.uGlJtD.A.~CEaNr~r.EME.\.7A:r!OtiOF
7w A = [40 + 1000 (% Cu -0.08) + 5000 (% P -0.008)][f/10191 1)400)-&#xfd;Pl ,, 300 0 C.E 0 200 4-0 100 E 5-50 C., a, IL%I-.I I I I I III~..~~IIIIIIIIIIIIiIIIjTIIII[III
iEG'iJU,TOllY
i i i L l i i i ~ m- i i 1 11 11am 1 1 1 i i i i i i i i i i i i H HHHHH i i i i i i ! i H HHHHHHi ....II!I I i I I I i I IBI ,JI 0.25;M020
GUlDfS 10 srAADA&I)l!EO.
/, rz z0.15% Cu-0.1(Ia I/ f I =I 1.LOWER LIMIT% Cu = 0.08% P = 0.008 2X10 1 7 4 6 8. 10 1 8 2 4 6 8 1019 2 4 6 FLUENCE, n/cm 2 (E > 1MeV)Figure 1 Predicted Adjustment of Reference Temperature, "A", as a Function of Fluence and Copper Content.For Copper and Phosphorus Contents Other Than Those Plotted, Use the Expression for "A" Given on the Figure.


~~~U.,3UU
h:1JCL'fA,R
.-20 0.25-- -------- 0.20 -0.15-0.15 0.10-- W wL IT C,"___ O. 10---.05 ---I Z 2 11 4 6 8 08 6 8 1092 4 6 FLUENCE, n/cm 2 (E > 1MeV)Figure 2 Predicted Decrease in Shelf Energy as a Function of Copper Content and Fluence.Aftk --  
POWE:RPL\."ITS'
UNITED STATES NUCLEAR REGULATORY
ande.on<:.lUd~,d~fullowi~~JUL-15-201009:10TOTALP.008}}
COMMISSION
WASHINGTON, D.C. 20555 OFFICIAL BUSINESS PENALTY FOR PRIVATE USE, $300 POSTAGE AND FEES PAID U.S. NUCLEAR REGULATORY
COMMISSION
UCi' 7-L NN r? C ULFLL F U EF l",%:PEFLC
110N t, [F R C E U 3 1 AUFAVENI K TN rc 0 F P R US i A PA 1'J4Lu/}}


{{RG-Nav}}
{{RG-Nav}}

Revision as of 23:39, 29 April 2019

Rev. 0 - Radiation Embrittlement of Reactor Vessel Materials
ML12150A045
Person / Time
Issue date: 07/31/1975
From:
Office of Nuclear Regulatory Research
To:
Kirk M
References
RG-1.099, Rev. 0
Download: ML12150A045 (7)


EFFECTSOFRESIDUALELEMENTSONPREDICTEDRADIATIONDAMAGETOREACTORVESSELMATERIALS

P.002July1975

6. Products

7.T',,".po".tfot\

t.OCCWI'*lon.II4It~

t.Ant" h'"A'0.Gen_,.15.ParOlgraphV.B.ofAppendixGdescribesthch:lsisfor~ettingtheupperlimitforpressurcasafunctionof temperatureduringheatupanacooldownforagivenserviceperiodintermsofthepredictedvalueofthe4.PoragraphII.BofAppendixHincorporatcsASTME185.73byreferenc

c. Paragrapil

4.\ofASTMEI&5-73requiresthatthematerialstobcplacedinsurveill3nccbethosethatmaylimitoperationofthereactorduringilslifetime,i.e.thoseexpectcutoluvethehiShc:aadjustedrefcrencetemperature octheloweS!Ch:lrpyupper.shclfenergyatendoflife,Bothmeasuresofr:ldiationdalll~gemustbeconsider~d.1.ParagraphII.HofAppendixGdetin~$thebcltlinl:inlermsofapredictedadjustmentofrd"erCnl.'Ctem.pcr:\tureatendt)fservicl:lifeincx.~e$Sof50

0 F: P:H;I'gr::lPh.~IILe:lndIV.Bspecifythe3dditionaltes:require-menIsforbeltli:1elnilteri:lIs tha!$uprlemcnttherequirementsforrC:lClOrVt'sselln:ltcrtJ1sgcner:!lly.

Cople tofp",~U*,.d9"itM.M.y ba ob,ain.d b.¥t,I"a"'aQ"'."'"dIC.t~9,~.d'wi,~".d.'.d'o,,,.

U.S.Nud.a,RaQ,,'a'IWComf"I.,iO"", Wa"QltO

A , 0 C.:lO566.An"ID":DIr.Cla."file.ofSnd.,d.Oop".,.PDW.'R,.c,o'l2.A'c/l.ndrActo" 3.Jlaa"dMr,.l.FacUI,I.,4.E"~&,o'u",,,'nd SI.jI\DSM".ti.lt.~fIPI.,,\P,al.cti~~Co,.,me'UI.~o\llcfba n'to\hStC'.'.'Yn'COfllllM,.aion.

u.s.Nwt:I'A-aul.to,", CO"'IU'Oft.

W.,~i",O'O",0C.205li6.

An.,,'IOl'l:Ooclll.""Q.,,~

S.""ie.SeCtio

n. NRCPDR

A. INTRODUCTION

REGULATORVGUIDE1.99JUL-15-201009:09OFFICEOFSTANDARDSDEVELOPMENTU,S,NUCLEA.RREGULATORYCOMMISSION<:en~r:llDesisnCriterion31."FracturePr~ventionofL':IL:torCoo1:lntPressureBound:HY:'ofAppendixA.CeneralDesignCriter;:\forNuclearPowerPI:lnts:'to i0CFRPartSO,"LicensingofProductionandUtilil..:l'lionF:lcililies:'requires,inP:Ht.thatthereactorl:tloi,Jn1pressurebO~llIdarybedesignedwithsufficient2.P:HaMal'hll.e,3of AnpenCIiXHemblishcsthcmargintoensurethat.whenstres~edunderoperating,0'..maintenance.testing,andpo~tul:lted3cdd~nlcondi.requirednumberofsurveillancecapsules

01\thehasis~lt'

[ions.(J)thebound:HYbeh:ivesin Jnonbrittlemannerthepredicted.adjustedrel'crence,cmpcratur~

31thecnllnnd(2)theprob:lbilityofrapidlyprop:lgatingfractureisofserviceIife:.)nadditio

n. withdrawalofthefirst

(.'3p-minimi1.cd.Appendix C,"FractureToughnessRequire.sulc(J:1enrour'or m"rc:lrCrequired)isto

1I<:('1IC whenments:';mdAppendixH."RcactorVesselMaterialthepredicted:::Idtustmcntofrcferencetcmpcr:Jlureis Surveillar.eeProgf:lmRequirements,"whichwcreadded:lpproXiinoi'tety.:'SO

FOfnton

c. fourth

01theservicetife._to10CFRPlIrtSOeffectiveAugust16.1973.to"~~~;vct.isearlier.impJ::mcnt,inpart.Criterion31.necessitatethepredic-/;j;~\,:.:.".tionoftheamountofr3diation<.iamagetotherea:tor;~:~

..'~~:t':,).ParagraphlV.CofAppendix Crequiresthai vess~l~fwater-cooledpowerrellctorsthroug~?ut"i~.~~.~xesSelsbedesigned

10permitathermallInnealingtee:!t-serVIceIIfe.'-:"':~,"mentifthepredictedvalueofadjustedreferencetemper..._.._.~;"..":>', ,Xatureexceeds200°Fduringtheirservicelife.

nBSgUidedescnbesgeneralprocedurCS':lcceptabfe:'to'theNRCstaffasaninterimbasis.for:,predictingthceffectsoftheresidualelementscopper and, phOSphorusonneutronradiationdamagetothelow:..dloysteelscurrentlyusedforreactorvessels.

..;::<":.;t B.'b)~9OSSI.0N

.;,"'...1/Theprincipar~'cDinples'.\~fNRCrequirementsthatnecessitater..re~.ttionOfpdia~iondamageate: ,L':1'"'~s-...~.-I':,~"";.

,~"'~;.-:I.".Rc!:e:Jrch

';Siciconstructionexperiencewithlow-re~iduJI.clementconi~tjonsofthesesteelsisaccumu1atinl:rapidlyandIscxpcCtM

to provide:I firm basis for accept:lbteproceduresinIhenC:lIfuture.uSNRCREGULATORYGUIOeS

Aag",l.f.'GWld".'""ed(0d(IlW A",d",ake'".1)1.tothe lP"bl i C__o.dl.-CC.'Hable te.t\.PlAC.uft of i"'v1a""'.""'

II).ci'ic C'A'"6',,,.Co_Mi;O"-'

,.ow'atiO"I,1041.""<<_'.C""'q".'",.dby t".I.a"'..1".t~f"'lgIpeot,ffcp/O".""01po.,,,I.,.4!I.

ccid.,,",.

or Ie, O,owld.gUtd."C'10.ppll.~c.,.u.A.vwf.:CtyGu.de.ara"'0'tub.li",

tf'-..,ul.,.o".

Ad co",pliance".if:'\till';'1\01'.Qut'ad.

M.OdaI""101".Ito." d,".'.'"r,a.~11\0'.,

GO'." t'"1".4"_~U tt.acc.prtb1a" the,"'0'11'"aba'lasfo',"','Iftdi"e'HQV1t.c.to""'su."C'0'

COf\t"n,.ftC'0'p.,,,,i'0'Itc.",abyt.., COI'Illo'IiOf\.

Co'""'111'\\1d1aUQg.'(;.o.,.to'il"p,o",41U'"'0'.Q""are onCoo.""QldaU,,""'.,."ItQyt~."willb'.!lI,d.ap~IO"I1.'.,toat:to~"'Od.t.

co"'."'a"".,,4'0,.fI.ctn

11\'0""."0,", 0'."O_C.How,',CO"'

O"" 0'" (hi,8",.dtf'.iO.icJ1...,iU,u, abou0""OAt"f'.1Ihi".wane.w11l!),a III."ftC"''ut.,1'"".'"aU"Qfh.d'0'

a"..,ty,",i.,o".ReGULATORYGUIDE

','JUL-15-201009:09NRCPDR P.003 JUL-15-201009:102.Fornewplants,there:lctorvesselbeltlinematerialsshouldhavethecontentofresidualc:Ienlentssuchascopper,phosphorus.sulfur.andvanadiumcontrolledtolowlevels.ThelevelsshouldbesuchthatthepredictedadjustedrefC!rC!ncetemperatureatendoflifeislessthan200°F.'

0, IMPLEMENTATIONd.Applic:ltionoftheseprocedurestomaterialshavinRresidualelementcontentbeyondthatrepresentedbythecurrentdatab:lseshouldbejustified by submittalofdata.P.004ThepurposeofthissectionistoprovideinformationtoapplicantsandlicenseesregardingtheNRCpa(r~plansforutilizingthisregulatoryguide,Thisguidereflcctscurrentrcgu1:lt()rypractice.There.fore,exceptinthosecasesinwhichthe3l'1plic:tntproposesanacceptablealternativemethodforcompI:,.ingwithspecifiedportionsoftheCommis.~ion'sregula.tions,thepositionsdescribedinthisguidewillbe lIs..:dbytheNRCmff

3S follows:I.Themetroddescribedinregulatorypositior.C.IofthisguidewillbeusedinevaluatingallpredictionsofradiationdamagecalledforinAppendicesGJndHto10CFRPartSOsubmittedonorafterJanuary15,1976;

however Iifanapplicantwishestousctherecommcn-dationsofregulatorypositionC.Iindevelopingsub-mittalsbeforeJanuary15, 1976,thepertinentportionsofthesubmittalwillbeevaluatedonthebasisofthis guide.2.Therecommendationsofregulatoryposition<:.2willbeusedinevaluatingconstructionpermitappli-cationsdocketedonorafterJanuary

15,1976;however.ifanapplicantwhoseapplicalionforconstructionpermitisdocketedbeforeJanuary15.1976,wishestousetherecommendationsofregulatorypositionC.2ofthisregulatoryguideindevelopingsubmitt:JIsfortheappliCOltion,thepertinentportionsofthe.:IppliCOl tionwillbeevaluatedonthebasisofthisguide.NRCPDRApplic.ationoftheforegoingproceduresshouldbesubjecttothefollowinglimitations:a.TheproceduresapplytothosegradesofSA.302,336,533,and508steelshavingminimuml'pecifiedyieldstrengthsof50,000psiandunderandtotheirweldsandheat.affectedzones.

%P'"weightpercentofphosphorus.If%P 40;0.008, use 0.008.b.Theproceciuresarevalidforanominalirradia-tiontcmperatureofSSOQF.Irradiationbelow525°Fshouldbeconsideredtoproducegrealerdamag

e. andirradiationbove

575°Fmaybeconsideredtoproducelessdamage.Thecorrectionfactorusedshouldbe justified.IfthevalueofAobtainedbytheaboveexpressionexceedsthatgivenbythecurvelabeled"UpperLimit"inFigureI,the"UpperUmil"eurveshouldbeused.If

%Cuisunknown,the"UpperLimit"eurveshouldbe used.Ch:lrPyuppelShelfenergyshouldbeassumedto decrease uafunctionofl1uen~andcoppercontentasindicntcdinFigure2,withinthelimi~listedbelow.In.Icrpolati.onispermitted.AsillustratedinFigureIforselectedcopperandphosphoruscontents,the:lboveexpressionshouldbeconsideredvalidonlyforA>50°Fandforf

<6 X la'9'n/crn'2 (E>1 MeV).c.TheexpressionforAisgivenintermsoflluenceasmeasuredbyunitsofn/cm

2 (E>1MeV);however,thec:xpressionm:lybeusedintermsoftluencc:

asmeasuredbyunitsofneutrond:lmagefluence,providedtheconstant10

19n/em:(E>1MeV)ischangedtothecorrespondingvalueofneutrondam3.ge fluenc!!.

!o to z~o'l:l o~....o c...c:=r--1....m I tv o....o 56 4 3 2 81 10 19 56 4 3 2 81 10 18-4 56 32X10 17 400UT~:~~::U~;'.1.:.)::'j:"FTJ:;::1:;."j.'.1,..:'1':'I:;::l:~::.'..:.':.:::;l::::::::'::::::::

.::f;~350~::1:::~::1>.~:-r":-..;:-

.:.!~t.I-:'~...i:-::-:':.:-~..;':~J:::':":-:::
'+-:-:r:'k-~;:::::.:-:---:_-.
-::-7-7-.;::::::::~~.:::'

300 iii::;ii: i:;~~<::;~f:i\.~.14("100~(%Cu..0.08)7.500~'I%p'~~

..008)i"no19j~"::::::::::::::i::.::::::~~':';::

~J1...'"".,........!I~...250'+S8:j~..--j..8.-I LI J:.-::.:::':::.;-l"'W..L~..~V~!/~.200':::f.,:::~~~C~~.~1~li~T'jT:-'tn it t~:>I).u7 c.09 t0 n:-::;;;ij,;,;(J;;:--:-%P=0.008'::..:.::.:'I'::::.:.1::'::::::J......,;;;,'~..-...../:.i:.,;.;,.,tI':..;;~

...,;,.<!ii:::::::::I::::':::';::f"::::':"'::"'.::1-:..:::.~\tf\\1.~......:~:-:,.;'~::~:~7:::::::;::~::::

1501-:']::'1-'.._

I'_j.........

~v......,...~t;..;-.._.'"".-j.l~:.,,,..-..;.....7;.:;';;r Hi i iTI:!!::ri;T.~;-"..~-::[:T.::.-:--2:t~3~':':>.:'1:0::~:,:_;.

~r wi:i: l 0Jt n f;t:~,';ii,'.,j,I",'..".','..:...:..

/'.'.'!d:!:.~..-c.f:::}:~~

..'.',1><....""~cl-i'~,.:, 1:,:,iiJ.1<;jl.h.

1"1 IOO:,:!!!!!

li!!'!i!i;!i:~~~~~;B'~

$~~~~'m~0f~~t~i;~~o

@@50 1".:.'IOt.".,k..,."k lo'..V".y.(:/.::::::r.'L;.f:.:1"~..--........,.~I~:h

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t:-1/""-'("1"..I.a..-..................-,.--..........

,;\.l:'1;u'ITI'.

n.~~~..!!,..

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II J:'-,:...."'%C"025';"..:."~'.";.".

'ful:'T:-'10...............-,.--;-...:...:.lOWERLIMIT.u.,~_"Cu~0.20,,"el>'"015 II"',~-,-..-.,--.-.-....-..

I'~miir Ii';I'r i: I i!.!i!i!1 i~~:r~IT:.:, r-;-nit~T.-;c'i~';'

.'~ti!"~if ii:[~-r,:.f;,JW';t!l.:.;'~

~i1m~].....,.,.;.".'.II

"'j"'I.;;I~:1..........................._....."'1'-._-.:'""i1o:ti:t:t~;',~.:~Hi!~it;

t;Ii::;::;;::::::::::.:

i:;I:::::::::':'1:::::::::::::.

-J~~:.:.:'

':'1:'::i;:.;:::::~~E:1~1"#u.0 0..:J..'"~K E (;>I-0>U C'"..'"..Cl Cl:...0 i: II>E....:J:0:.0\0 c:(~"D II>ti:0'".t 4,"Fluence'cm

2 IE>1MeV)Figure1PredictedAdjustmentofReferenceTemperatureasaFunctionofCopperandPhosphorusContentandFJuence.

'l:l o o m

~(~.c...c:: L'I....01 I tv o....o o U)....o z::>j o"(l t::l::>j:::I-.;..~:L-=:--.~-r-.O-:-,-:.:.;--i:::;

-.-~_.-.:::I:.::I:~::I:::

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i:, ITtil..,I tl~.25~';T.:,"._.J.--->'..-:,-."':-~~~'~-..~.

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~~?~~;:~r::'

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~;:Irml:~::'::::h;:::.

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TIl"..~n P~jnr~.~.~f~~~!!~i g~~g~~~n:~t!f',i.f~H~gg~~i';~~~~~;~~~U~~:~~~~~j-:~'.!_:: mt., c B...ll>0.~..4U c: W..'ii.r.(I).5 4U;I"" b 4U C'0\()v..2Xl0 17 3 4 56 81 10 18 2 3 4 56 81 10 19 2 3 4 5 6Fluence.n/cm

2 (E>1MeV)Figure2 PredictedDecreaseinShelfEnergya~aFunetio;)ofCopperContentandFluence.

I I;I tTl.'..~'\."';'.'-.',~.,...,,';';";:I....".:

,:,.'.~'l.~l:..-"'",'P.OO?UfCJnI)SJ:A:t'D

N~IE(Jttf.Ai1OIY~~ON

W~~6.c..'"F,ebruary1.

19'7NRCPDR PROPOSED'REGUlATOR\'

GljIIJ)EJ.99.ReJ1510N1.

I~FFscrs OFReSlOOA1,;..ELEMENTSON

PRED-ICTED:RA&lAJ"ION

D~ETO~W'sset.KATSRIAtS,.

and re.coDlcn4eda'ppr.wta.lsUbjee'ttotM

f:tJl1.ow.tt;e

~b~1.L SO'BJECi:~y OF R!!CUUroltr p.f~rae-etrS

aEVZ;C)f CO~t1T2!fE£TlNG NO.S7.JANUAAY14,1977~JtQiDtJa4FOU;~

v.Go$Sick,~S~eC't1tjv~

Oirec'tor for OpeTn.i01~

pam!kE.G.C3::!~.

Ch:ti.~, flegr;tb.tory a,-ql).i~nt:s

~.\fi~CQmmi~ee~OI!IIIri;t:.t';~e~onaen~srefer t:o th.e draftd.is"tribut:ea~t

~hc~~t.!'ti.ngd~l:ed Jmuary 19'77.t'a.thO'r than the-cfr'3:ft4.1nrlboll~ed wi.th~he age-nda d:I~ed~pt:~'l:>er

19'6.a~.'the foot1'lotitonres;e'.

r;;i1 and con~tl'U<
d9'!-

~x;':ience.onp.age Iof"t.tteproposedr.~i~ion shouldbe~at\de:d tQimclud:ethe woN'i"'i eoncernin.g the ami~a.tioA$

oft:begui-d$

sugg~st ed by:t1t~O'fficoof'

  • uc1:ea~RC:~la~

Res:ea~h.b.'TheCommittu eharacteri:biJ

pacagr-a.phs C.l, C,2..andC.4ofthe:proposed,Regul&tory Po.s1t:ion

8$Cat;e;s.?r;'

3-baGlfjt r~i.ec1;.amipar~~a.phC.3a.sCa'teiOTy1-nobaetl'fr':",._._~..

" , ,"2.PROr05ED

REGULATORy GUlDE l.XX,"AC~9'!'AaiE'~f1.A.~'<ELAnDSTA'TIST1CA1.MEnt:it>5r:ORANALYSISOFFUEL D&~SrHo..TI:<l\l, e'T~.dfoundth'.J;tthe pNpQ-5Cc!.

Regulatory GUl-der~~e~ent'ed~

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=od,dlind.,.pproprb.'t4:

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in ac~o.rdance wit~10 CF~S().4~3~t..her~la:t"dApp.m4ix Ieto10Cfa50.':~.g002O'"lQ~/OSr.DRAFT REQJU'1DJtY

GUID£I.XU,I?i$P£CfIONOF

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reffn'to r.:~<ira,it guide dist:ribti':C!'d IJa.t t!\;~~~Q.nE'.ch.~ft!'~~cmbn16.19'16.r'3the:r than the drAft d.t~.tl':fblltedwi:~t'hth.

  • %tmd:*QA:Ud S'Cpt'crm\l)C!c

17 t 1~r16.JUL-15-201009:10.,II r 1 II'"I"loll'",\'." ,I.I r ,'I(,I'.

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_._..,....._--_._...._.,.,....:.........

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il,p The-CQIIlIlj,ttee-,revi,eoN

of t~jis poroposedgu,idl:":'51 fllli'1::ed toits.~lic~bH.ityand-

~cceptabi1hy with 1'egard 1:0~M eOf)trel~~!'I)CUs+es wtJicl'l could~rfel:t::adioloJ;i~lsafe~y.

1hepr.opos,~d piesMu1dbe:.'*Zld~th,WUi~t: U:]cl'Ut1tn~",h~~itle)ro z:e.1::crrh thi~lai,tr&:tiQ1.i.b.The prmi'O'ntSY5t:a=

o~Co=itt-eoech~1"&Ct'eri,;<tti.an of t.he bac.kiit PQt:ental o-f;u.opos-ed guides fo'!'opeTa:tin~plllJ.1)t,Scanand should he!applied to sundarti~%~

plJlf1~5;i.e.ClILegory 1-need l\~b~applied to st3Ada~iz'@(.\p14nu;ca..'teeOTY

2-Stppl:leabi,1'i ty to~anda.:.rdi:ed'

plan'ts:U$~'be ded.:d~~y~RR on a ca-se-.by-eau bas,i,,;Cat~,<>r.y3--ll!1JS'tbeappH<<1tosUJ'ld.lu"d.hedplan.t;s.~eExecutiveSC'<:':"e~~:yshould dtIf.Clop andcin:ula:t.efor Comait;~ee C~tsrith'in2?'~",ks a p~posed r.evis-ion r:(~the.d.cfinl t:ions of o3<;l:fit ca'eegot:i:e$

p:r~iouslr es~bl b~ed by the CQlIDi't:t~,in~eting NO'.31f~e1IJ~:ratld~

tot,.~'.Cossid dat.odS~pteJlbeT24,1975)tha:i-ncl,udest:heseaddltion, conee,ming stflDd:ardi.ud.plall'ts.andclarUioes,as n~e.$s,~:ry.

t.he applic.a.bilit:yofCCIllIlZSitt'e.e-co.nside:red guidlt'$to cus'tQmp,i3ntsW'it~

CPs.a-Gu-idan:ceont.~ci:mple<.IHm,UtiO'[l of regulatory guides fpr standardi~

l\Uc.l~a'r

'power.pl-c1n'~s should be in.c.lad'~

in are"1isitm to WASii-1341.

ra.ther man tn 1&regulatory gui~.b.The C~t.~eele'avesto th~5"t::tff thedevelopmentof appZ"Opriat.e meulkb~nc;l~~:5to~~:t:ili;ed fer aasuring t1gt the i,n~p6C1:i~.

~orv~illarice.

an4lor t;e~'tr~uheJne."'l~$Set f'O:"th J:Dtheguide a;re-lHlt by1k.ensees.c~~(DP1of)should dCVlelop s W::~?!!..~!t~~2:.~95.~~,!*e$

for i~l (!lI'f~~ing t:he c.oc:..a.iUt:'4'S

reCO~ttron'S

conc.l!'T1ling ba.clnr-,:o.'t.~'f.ia1of.....;;!tan'i~S

n~.gul~tory re~tJir.C
Qi¥en;uto~ho:>e£itJecific plants nothav,"1.,opor>:'ftg

1L<<".~""t'>r~.:, (2:~/n;C.I~~.C"'-a~.rr;la,n~~Ha1to.ry Rfl'q'.:~r~en:ts Re:vie:'lt C~lit.tee 4,.PIOPOSED.RSV1:5ION21U~EGUUTOR.YG1JTD!

1..Z2."CRITERIA FO.R Sl\FfTY R.Eu.no-Eu:mlC PowasvsracsFORNUCLEAR

Pr;l1l'ERP~"TS'md tecomaended.a:pproval.

The COllllittee~~m'zedthis pide as Ca~gory.3~ba.ck.fit reqo,ired~

._e_"~)f_,...,.'"":11'"._..~._.:J.._._

s.P:ROOOSSl RfGULAWRV GUIDf 10.XX.uGlJtD.A.~CEaNr~r.EME.\.7A:r!OtiOF

iEG'iJU,TOllY

GUlDfS 10 srAADA&I)l!EO.

h:1JCL'fA,R

POWE:RPL\."ITS'

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