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ASME BPVC.II.D.C-2017 PDF

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ASME BPVC.II.D.C-2017 SECTI ON II MATERIALS ASME Boiler and 2017 Pressure Vessel Code An International Code Part D Properties (Customary) Markings such as “ASME,” “ASME Standard,” or any other marking including “ASME,” ASME  logos, or the Certification Mark shall not be used on any item that is not constructed in  accordance with all of the applicable requirements of the Code or Standard. Use of ASME’s name,  logos, or Certification Mark requires formal ASME certification; if no certification program is  available, such ASME markings may not be used. (For Certification and Accreditation Programs,  see https://www.asme.org/shop/certification‐accreditation.)    Items produced by parties not formally certified by ASME may not be described, either explicitly  or implicitly, as ASME certified or approved in any code forms or other document. AN INTERNATIONAL CODE 2017 ASME Boiler & Pressure Vessel Code 2017 Edition July 1, 2017 II MATERIALS Part D Properties (Customary) ASME Boiler and Pressure Vessel Committee on Materials Two Park Avenue (cid:129) New York, NY (cid:129) 10016 USA DateofIssuance:July1,2017 This international code or standard was developed under procedures accredited as meeting the criteria for American National Standards andit is an American National Standard. The Standards Committee that approved the code or standard was balanced to assure that individuals from competent and concerned interests have hadanopportunitytoparticipate.Theproposedcodeorstandardwasmadeavailableforpublicreviewandcom- mentthatprovidesanopportunityforadditionalpublicinputfromindustry,academia,regulatoryagencies,and thepublic-at-large. ASME does not“approve,”“rate,”or “endorse”anyitem, construction, proprietary device, or activity. ASMEdoesnottakeanypositionwithrespecttothevalidityofanypatentrightsassertedinconnectionwithany itemsmentionedinthisdocument,anddoesnotundertaketoinsureanyoneutilizingastandardagainstliability for infringement of any applicable letters patent, nor assume any such liability. Users of a code or standard are expresslyadvisedthatdeterminationofthevalidityofanysuchpatentrights,andtheriskofinfringementofsuch rights, isentirely their own responsibility. Participationbyfederalagencyrepresentative(s)orperson(s)affiliatedwithindustryisnottobeinterpretedas governmentor industry endorsement of this code or standard. ASMEacceptsresponsibilityforonlythoseinterpretationsofthisdocumentissuedinaccordancewiththees- tablished ASMEprocedures andpolicies, which precludes the issuance of interpretations byindividuals. The endnotes andpreamble in thisdocument (if any)are part of this American National Standard. ASMEcollectivemembershipmark CertificationMark TheaboveASMEsymbolisregisteredintheU.S.PatentOffice. “ASME”isthetrademarkofTheAmericanSocietyofMechanicalEngineers. Nopartofthisdocumentmaybereproducedinanyform,inanelectronic retrievalsystemorotherwise,withoutthepriorwrittenpermissionofthe publisher. LibraryofCongressCatalogCardNumber:56-3934 PrintedintheUnitedStatesofAmerica AdoptedbytheCouncilofTheAmericanSocietyofMechanicalEngineers,1914;latestedition2017. TheAmericanSocietyofMechanicalEngineers TwoParkAvenue,NewYork,NY10016-5990 Copyright©2017by THEAMERICANSOCIETYOFMECHANICALENGINEERS Allrightsreserved TABLE OF CONTENTS ListofSections .............................................................................. xiii Foreword ................................................................................... xv StatementofPolicyontheUseoftheCertificationMarkandCodeAuthorizationinAdvertising .......... xvii StatementofPolicyontheUseofASMEMarkingtoIdentifyManufacturedItems ...................... xvii SubmittalofTechnicalInquiriestotheBoilerandPressureVesselStandardsCommittees ............... xviii Personnel ................................................................................... xxi SummaryofChanges ......................................................................... xl ListofChangesinRecordNumberOrder ........................................................ liv Cross-ReferencingandStylisticChangesintheBoilerandPressureVesselCode ....................... lvi Subpart1 StressTables ................................................... 1 StatementofPolicyonInformationProvidedintheStressTables ........ 1 GuidelineonLocatingMaterialsinStressTables,andinTablesofMechanical andPhysicalProperties ......................................... 2 Subpart2 PhysicalPropertiesTables ....................................... 802 Introduction ..................................................... 802 Subpart3 ChartsandTablesforDeterminingShellThicknessofComponentsUn- derExternalPressure ......................................... 843 MandatoryAppendix1 BasisforEstablishingStressValuesinTables1Aand1B ............ 976 1-100 DerivationofAllowableStressValues ............................... 976 MandatoryAppendix2 BasisforEstablishingDesignStressIntensityValuesforTables2A,2B, and4,andAllowableStressValuesforTable3 ................... 978 2-100 DerivationofStressIntensityValues ................................ 978 MandatoryAppendix3 BasisforEstablishingExternalPressureCharts .................... 981 3-100 General ......................................................... 981 3-200 BasisofChartsinSubpart3 ....................................... 981 3-300 UseofChartsinSubpart3 ......................................... 981 3-400 BackgroundandDevelopmentofTheory ............................. 981 3-500 DesignBasis ..................................................... 981 3-600 CriteriaforAllowableStresses ..................................... 982 3-700 ProcedureandResponsibilityforChartDevelopment .................. 984 3-800 AlternateProcedureforDeterminingAllowableCompressiveStresses .... 987 3-900 References ...................................................... 987 MandatoryAppendix5 GuidelinesontheApprovalofNewMaterialsUndertheASMEBoilerand PressureVesselCode .......................................... 988 5-100 CodePolicy ...................................................... 988 5-200 Application ...................................................... 988 5-300 ChemicalComposition ............................................ 989 5-400 MetallurgicalStructureandHeatTreatment .......................... 989 5-500 MechanicalProperties ............................................ 989 5-600 DefinitionsforDataCollectionPurposes ............................. 989 5-700 RequiredSampling ............................................... 989 5-800 Time-IndependentProperties ...................................... 989 5-900 Time-DependentProperties ........................................ 990 5-1000 Low-TemperatureProperties ....................................... 990 5-1100 ToughnessData .................................................. 992 iii 5-1200 Stress–StrainCurves .............................................. 992 5-1300 FatigueData ..................................................... 992 5-1400 PhysicalProperties ............................................... 992 5-1500 DataRequirementsforWelds,Weldments,andWeldability ............. 992 5-1600 Long-TermPropertiesStability ..................................... 993 5-1700 RequestsforAdditionalData ....................................... 993 5-1800 NewMaterialsChecklist ........................................... 993 5-1900 RequirementsforRecognizedNationalorInternationalSpecifications .... 995 5-2000 PublicationofRecognizedNationalorInternationalSpecifications ....... 995 5-2100 CENSpecifications ................................................ 995 MandatoryAppendix7 GuidelinesonMultipleMarkingofMaterials ....................... 996 7-100 Background ..................................................... 996 7-200 Guidelines ....................................................... 996 MandatoryAppendix9 StandardUnitsforUseinEquations .............................. 998 MandatoryAppendix10 BasisforEstablishingMaximumAllowableStressValuesforTables5A and5B ....................................................... 999 10-100 DerivationofAllowableStressValues ............................... 999 NonmandatoryAppendixA IssuesAssociatedWithMaterialsUsedinASMECodeConstruction ... 1001 A-100 General ......................................................... 1001 A-200 MetallurgicalChangesThatCanOccurinService ...................... 1002 A-300 UniformCorrosion ............................................... 1009 A-400 LocalizedCorrosion ............................................... 1012 A-500 MetallurgicallyInfluencedCorrosion ................................ 1013 A-600 MechanicallyAssistedCorrosion .................................... 1014 A-700 EnvironmmentallyInducedEmbrittlementandCracking ............... 1015 A-800 MechanicalDamageMechanisms ................................... 1019 NonmandatoryAppendixB DevelopingNominalCompositionDesignationsforASMECode Materials ..................................................... 1021 B-100 Background ..................................................... 1021 B-200 GeneralGuidelineforAllMaterials .................................. 1021 B-300 GuidelinesforDevelopingNominalCompositionDesignationsforFerrous Materials ...................................................... 1022 B-400 GuidelinesforDevelopingNominalCompositionDesignationsforNonferrous Materials ...................................................... 1022 B-500 Summary ....................................................... 1023 NonmandatoryAppendixC GuidancefortheUseofU.S.CustomaryandSIUnitsintheASMEBoiler andPressureVesselCode ...................................... 1024 C-100 UseofUnitsinEquations .......................................... 1024 C-200 GuidelinesUsedtoDevelopSIEquivalents ........................... 1024 C-300 SoftConversionFactors ........................................... 1026 NonmandatoryAppendixD GuidelinesforRoundingMinimumSpecifiedTensileandYieldStrength ValuesandforEstablishingAnchorPointsforTensileandYield StrengthTrendCurvesinTables1A,1B,2A,2B,3,4,5A,5B,U,U-2, andY-1 ...................................................... 1027 D-100 MinimumTensileStrengthandMinimumYieldStrengthColumns ....... 1027 D-200 SelectingAnchorPointforTensileandYieldStrengthTrendCurvesforAll SituationsinWhichtheMinimumRTSpecifiedValuesinOneUnitSystem AreNotPreciseConversionsoftheUnitsintheOtherSystem ......... 1027 D-300 SignificantFiguresintheAllowableStress,TensileStrength,andYield StrengthTablesinSectionII,PartDandinCodeCases .............. 1028 NonmandatoryAppendixE MaterialDataforStressAnalysisintheTime-DependentRegime .... 1029 E-100 Introduction ..................................................... 1029 iv FIGURES G GeometricChartforComponentsUnderExternalorCompressiveLoadings (forAllMaterials) ............................................................. 844 CS-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor CarbonorLowAlloySteelsWithSpecifiedMinimumYieldStrengthLessThan 30,000psi .................................................................... 846 CS-2 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor CarbonorLowAlloySteelsWithSpecifiedMinimumYieldStrength30,000psi andHigher ................................................................... 847 CS-3 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor CarbonSteelandLowAlloySteelsWithSpecifiedMinimumYieldStrength38,000psiand HigherforTemperatures300°FandLess ......................................... 848 CS-4 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor SA-537Thickness21/ in.andLess ............................................... 849 2 CS-5 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor SA-508Class1,Grades2and3;SA-508Class2,Grade2;SA-533Class1,GradesA,B,C,and D;SA-533Class2,GradesA,B,C,andD;orSA-541Grades2and3 ................... 850 CS-6 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor CarbonSteelWithSpecifiedMinimumYieldStrengthof20,000psi ................... 851 HT-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor QuenchedandTemperedLowAlloySteelWithSpecifiedMinimumYieldStrengthof 100,000psiandThickness21/ in.andLess ....................................... 852 2 HT-2 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor SA-508Grade4N,Class2orSA-543TypesBandC,Class2WithSpecifiedMinimumYield Strengthof100,000psi ........................................................ 853 HA-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AusteniticSteel18Cr–8Ni,Type304 ............................................. 854 HA-2 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AusteniticSteel16Cr–12Ni–2Mo,Type316 ........................................ 855 HA-3 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AusteniticSteel18Cr–8Ni–0.035MaximumCarbon,Type304L ....................... 856 HA-4 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AusteniticSteel18Cr–8Ni–Mo–0.035MaximumCarbon,Type316L ................... 857 HA-5 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Austenitic–FerriticSteel18Cr–5Ni–3MoS31500 ................................... 858 HA-6 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AusteniticSteel21Cr–11Ni–NS30815 ............................................ 859 HA-7 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor SA-564Type630H1150(17Cr–4Ni–4CuS17400) .................................. 860 HA-8 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Austenitic–FerriticSteel25Cr–7Ni–3Mo–2W–0.28NS39274 ......................... 861 HA-9 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AusteniticSteel25Cr–7.5Ni–3.5Mo–N–Cu–WS32760 ............................... 862 HA-10 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AusteniticStainlessSteel24Cr–17Ni–6Mn–4.5Mo–NS34565 ......................... 863 CI-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor CastIron ..................................................................... 864 CD-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor CastDuctileIronWithaSpecifiedMinimumYieldStrengthof40,000psi .............. 865 CD-2 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor CastDuctileIronWithaSpecifiedMinimumYieldStrengthof29,000psi .............. 866 NFA-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy3003in0Temper .............................................. 867 NFA-2 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy3003inH14Temper ............................................ 868 v NFA-3 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy3004in0Temper .............................................. 869 NFA-4 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy3004inH34Temper ............................................ 870 NFA-5 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy5154in0Temper .............................................. 871 NFA-6 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy5454in0Temper .............................................. 872 NFA-7 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy1060in0Temper .............................................. 873 NFA-8 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy5052in0Temper .............................................. 874 NFA-9 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy5086in0Temper .............................................. 875 NFA-10 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy5456in0Temper .............................................. 876 NFA-11 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumAlloy5083in0Temper .............................................. 877 NFA-12 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor WeldedAluminumAlloy6061‐T6 ................................................ 878 NFA-13 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor WeldedAluminumAlloy6061‐T4 ................................................ 879 NFC-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AnnealedCopper,TypeDHP .................................................... 880 NFC-2 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Copper–SiliconAlloyC65500 .................................................... 881 NFC-3 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Annealed90–10Copper–NickelAlloy ............................................. 882 NFC-4 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Annealed70–30Copper–NickelAlloy ............................................. 883 NFC-5 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor WeldedCopper–IronAlloyTubeC19400(SB-543Welded) .......................... 884 NFC-6 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor SB-75andSB-111LightDrawnSeamlessCopperTubes,AlloysC10200,C12000,C12200, andC14200 .................................................................. 885 NFC-7 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AnnealedCopper,SB-75,UNSC12200,Temper050 ................................ 886 NFC-8 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AluminumBronzeAlloyC61400 ................................................. 887 NFN-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AnnealedLowCarbonNickelN02201 ............................................ 888 NFN-2 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AnnealedNickelN02200 ....................................................... 889 NFN-3 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AnnealedNickel–CopperAlloyN04400 ........................................... 890 NFN-4 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AnnealedNickel–Chromium–IronAlloyN06600 .................................... 891 NFN-5 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–MolybdenumAlloyN10001 ............................................... 892 NFN-6 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–Molybdenum–Chromium–IronAlloyN10003 ................................ 893 NFN-7 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–Iron–Chromium–Molybdenum–CopperAlloyN08825 ......................... 894 NFN-8 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AnnealedNickel–Iron–ChromiumAlloyN08800 .................................... 895 vi NFN-9 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AnnealedNickel–Iron–ChromiumAlloyN08810 .................................... 896 NFN-10 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor LowCarbonNickel–Molybdenum–ChromiumAlloyN10276 .......................... 897 NFN-11 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor SolutionTreatedNickel–Chromium–Iron–Molybdenum–CopperAlloyN06007 .......... 898 NFN-12 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Chromium–Nickel–Iron–Molybdenum–Copper–ColumbiumAlloyN08020 .............. 899 NFN-13 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–Iron–Chromium–SiliconAlloyN08330 ...................................... 900 NFN-14 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–Chromium–MolybdenumAlloyN06455 ..................................... 901 NFN-15 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–MolybdenumAlloyN06002 ............................................... 902 NFN-16 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–MolybdenumAlloyN10665 ............................................... 903 NFN-17 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AnnealedNickel–Chromium–Molybdenum–ColumbiumAlloyN06625(SB-443,SB-444,and SB-446) ...................................................................... 904 NFN-18 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–Molybdenum–Chromium–Iron–CopperAlloyN06985HavingaMinimumYield Strengthof35ksi ............................................................. 905 NFN-19 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–Molybdenum–Chromium–Iron–CopperAlloyN06985HavingaMinimumYield Strengthof30ksi ............................................................. 906 NFN-20 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Work‐HardenedNickel ......................................................... 907 NFN-21 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor Nickel–Chromium–IronAlloyN06600(SpecifiedMinimumYieldStrength40,000psi) ... 908 NFN-22 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor SolutionAnnealedNi–Cr–Mo–CbAlloy,Grade2N06625 ............................. 909 NFN-23 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor ColdWorkedNickel–Iron–ChromiumAlloyN08800 ................................ 910 NFN-24 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor NickelAlloyN06230 ........................................................... 911 NFN-25 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor StressRelievedNickelAlloyN02200 ............................................. 912 NFN-26 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AlloyS31277 ................................................................. 913 NFN-27 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor AlloyN06035 ................................................................. 914 NFT-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor UnalloyedTitaniumGrade3(UNSR50550) ....................................... 915 NFT-2 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor UnalloyedTitaniumGrade2(UNSR50400) ....................................... 916 NFT-3 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor TitaniumGrade1(UNSR50250) ................................................ 917 NFT-4 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor TitaniumGrade9Alloy(UNSR56320) ........................................... 918 NFT-5 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor TitaniumGrade12Alloy(UNSR53400) .......................................... 919 NFT-6 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor TitaniumGrade38(UNSR54250) ............................................... 920 NFZ-1 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor ZirconiumAlloy(UNSR60702) .................................................. 921 vii NFZ-2 ChartforDeterminingShellThicknessofComponentsUnderExternalPressureDevelopedfor ZirconiumAlloy(UNSR60705) .................................................. 922 3-500.1 TemperatureLimitsforApplicationofSectionIIExternalPressureChartsforCylinderUnder ExternalPressure ............................................................. 983 3-500.2 TemperatureLimitsforApplicationofSectionIIExternalPressureChartsforCylinderUnder AxialCompression ............................................................. 984 3-500.3 TemperatureLimitsforApplicationofSectionIIExternalPressureChartsforSphereUnder ExternalPressure ............................................................. 985 3-700.1 NormalizationofTestσ–ε toσ andE ...................................... 986 y min code E-100.2-1 PermissibleTime/TemperatureConditionsforMaterialThatHasBeenColdWorked>5% and<20%andSubjectedtoShort‐TimeHighTemperatureTransients ................. 1032 E-100.4-1 S —AllowableStressIntensityValues,ksi,Type304SS—30-YS,75-UTS mt (30-YS,70-UTS) ............................................................... 1035 E-100.4-2 S —AllowableStressIntensityValues,ksi,Type316SS—30-YS,75-UTS mt (30-YS,70-UTS) ............................................................... 1036 E-100.4-3 S —AllowableStressIntensityValues,ksi,Ni–Fe–Cr(Alloy800H) .................... 1037 mt E-100.4-4 S —AllowableStressIntensityValues,ksi,21/Cr–1Mo ............................. 1039 mt 4 E‐100.4‐5 S —AllowableStressIntensityValues,ksi,9Cr–1Mo–V ............................. 1040 mt E‐100.5‐1 S —AllowableStressIntensityValues,ksi,Type304SS .............................. 1041 t E‐100.5‐2 S —AllowableStressIntensityValues,ksi,Type316SS .............................. 1042 t E‐100.5‐3 S —AllowableStressIntensityValues,ksi,Ni–Fe–Cr(Alloy800H) ..................... 1043 t E‐100.5‐4 S —AllowableStressIntensityValues,ksi,21/Cr–1Mo ............................... 1044 t 4 E‐100.5‐5 S —AllowableStressIntensityValues,ksi,9Cr–1Mo–V ............................... 1045 t E-100.7-1 ExpectedMinimumStress-to-RuptureValues,ksi,Type304SS ......................... 1047 E-100.7-2 ExpectedMinimumStress-to-RuptureValues,ksi,Type316SS ......................... 1048 E-100.7-3 ExpectedMinimumStress‐to‐RuptureValues,ksi,Ni–Fe–Cr(Alloy800H) ................ 1049 E-100.7-4 ExpectedMinimumStress-to-RuptureValues,ksi,21/Cr–1Mo .......................... 1050 4 E-100.7-5 ExpectedMinimumStress-to-RuptureValues,ksi,Ni–Cr–Fe–Mo–Cb(Alloy718) ........... 1051 E-100.7-6 ExpectedMinimumStress-to-RuptureValues,ksi,9Cr–1Mo–V .......................... 1052 E-100.15-1 S —AllowableStressIntensity,Type304SS,Bolting ............................... 1059 mt E-100.15-2 S —AllowableStressIntensity,Type316SS,Bolting ............................... 1059 mt E-100.15-3 S —AllowableStressValues,ksi,Alloy718,Bolting ................................ 1060 mt E-100.16-1 DesignFatigueStrainRange,ϵ ,for304SS .......................................... 1061 t E-100.16-2 DesignFatigueStrainRange,ϵ ,for316SS .......................................... 1062 t E-100.16-3 DesignFatigueStrainRange,ϵ ,forNi–Fe–CrAlloy800H ............................. 1063 t E-100.16-4 DesignFatigueStrainRange,ϵ ,for21/Cr–1MoSteel ................................. 1064 t 4 E-100.16-5 DesignFatigueStrainRange,ϵ ,for9Cr–1Mo–VSteel ................................. 1065 t E-100.17-1 Time–TemperatureLimitsforApplicationofSectionIIExternalPressureChartsforCylinder UnderAxialCompression ....................................................... 1066 E-100.17-2 Time–TemperatureLimitsforApplicationofSectionIIExternalPressureChartsforSphere UnderExternalPressure ....................................................... 1067 E-100.17-3 TemperatureLimitsforApplicationofSectionIIExternalPressureChartsforCylinderUnder ExternalPressure ............................................................. 1068 E-100.18-1 AverageIsochronousStress–StrainCurvesforType304SSat800°F .................... 1069 E-100.18-2 AverageIsochronousStress–StrainCurvesforType304SSat850°F .................... 1070 E-100.18-3 AverageIsochronousStress–StrainCurvesforType304SSat900°F .................... 1071 E-100.18-4 AverageIsochronousStress–StrainCurvesforType304SSat950°F .................... 1072 E-100.18-5 AverageIsochronousStress–StrainCurvesforType304SSat1,000°F ................... 1073 E-100.18-6 AverageIsochronousStress–StrainCurvesforType304SSat1,050°F ................... 1074 E-100.18-7 AverageIsochronousStress–StrainCurvesforType304SSat1,100°F ................... 1075 E-100.18-8 AverageIsochronousStress–StrainCurvesforType304SSat1,150°F ................... 1076 E-100.18-9 AverageIsochronousStress–StrainCurvesforType304SSat1,200°F ................... 1077 E-100.18-10 AverageIsochronousStress–StrainCurvesforType304SSat1,250°F ................... 1078 E-100.18-11 AverageIsochronousStress–StrainCurvesforType304SSat1,300°F ................... 1079 E-100.18-12 AverageIsochronousStress–StrainCurvesforType304SSat1,350°F ................... 1080 E-100.18-13 AverageIsochronousStress–StrainCurvesforType304SSat1,400°F ................... 1081 viii

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