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ASME BPVC II D C 2017

ASME BPVC II D C 2017

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ASME BPVC – II – D – C -2017 BPVC Section II, Materials, Part D, Properties (Customary)

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ASME 2017
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PDF Catalog

PDF Pages PDF Title
5 Table of Contents
15 List of Sections
16 INTERPRETATIONS
CODE CASES
17 Foreword
19 Statement of Policy on the Use of the Certification Mark and Code Authorization in Advertising
Statement of Policy on the Use of ASME Marking to Identify Manufactured Items
20 Submittal of Technical Inquiries to the Boiler and Pressure Vessel Standards Committees
1 Introduction
2 Inquiry Format
21 3 Code Revisions or Additions
4 Code Cases
5 Code Interpretations
22 6 Submittals
23 Personnel
42 Summary of Changes
56 List of Changes in Record Number Order
58 Cross-Referencing and Stylistic Changes in the Boiler and Pressure Vessel Code
Subparagraph Breakdowns/Nested Lists Hierarchy
Footnotes
Submittal of Technical Inquiries to the Boiler and Pressure Vessel Standards Committees
Cross-References
59 Subpart 1 Stress Tables
Statement of Policy on Information Provided in the Stress Tables
60 Guideline on Locating Materials in Stress Tables, and in Tables of Mechanical and Physical Properties
1 Introduction
2 Stress Tables
61 3 Mechanical Property Tables
62 4 Physical Property Tables
63 5 References
64 Table 1A
1A Section I; Section III, Classes 2 and 3; Section VIII, Division 1; and Section XII Maximum Allowable Stress Values S for Ferrous Materials
212 Table 1B
1B Section I; Section III, Classes 2 and 3; Section VIII, Division 1; and Section XII Maximum Allowable Stress Values S for Nonferrous Materials
332 Table 2A
2A Section III, Division 1, Classes 1 and MC; Section III, Division 3, Classes TC and SC; and Section VIII, Division 2, Class 1 Design Stress Intensity Values Sm for Ferrous Materials
418 Table 2B
2B Section III, Division 1, Class 1; Section III, Division 3, Classes TC and SC; and Section VIII, Division 2, Class 1 Design Stress Intensity Values Sm for Nonferrous Materials
446 Table 3
3 Section III, Classes 2 and 3; Section VIII, Divisions 1 and 2; and Section XII Maximum Allowable Stress Values S for Bolting Materials
472 Table 4
4 Section III, Classes 1, TC, and SC; and Section VIII, Division 2 Design Stress Intensity Values Sm for Bolting Materials
484 Table 5A
5A Section VIII, Division 2 Maximum Allowable Stress Values S for Ferrous Materials
546 Table 5B
5B Section VIII, Division 2 Maximum Allowable Stress Values S for Nonferrous Materials
572 Table U
U Tensile Strength Values Su for Ferrous and Nonferrous Materials
664 Table U-2
U-2 Section VIII, Division 3 Tensile Strength Values Su for Ferrous Materials
666 Table Y-1
Y-1 Yield Strength Values Sy for Ferrous and Nonferrous Materials
859 Table Y-2
Y-2 Factors for Limiting Permanent Strain in Austenitic Stainless Steels, High-Nickel Alloy Steels, Nickel, and Nickel Alloys
860 Subpart 2 Physical Properties Tables
Introduction
861 TE-1 Thermal Expansion for Ferrous Materials
866 TE-2 Thermal Expansion for Aluminum Alloys
867 TE-3 Thermal Expansion for Copper Alloys
868 TE-4 Thermal Expansion for Nickel Alloys
878 TE-5 Thermal Expansion for Titanium Alloys
879 TCD Nominal Coefficients of Thermal Conductivity (TC) and Thermal Diffusivity (TD)
893 TM-1 Moduli of Elasticity E of Ferrous Materials for Given Temperatures
896 TM-2 Moduli of Elasticity E of Aluminum and Aluminum Alloys for Given Temperatures
897 TM-3 Moduli of Elasticity E of Copper and Copper Alloys for Given Temperatures
898 TM-4 Moduli of Elasticity E of High Nickel Alloys for Given Temperatures
899 TM-5 Moduli of Elasticity E of Titanium and Zirconium for Given Temperatures
PRD Poisson’s Ratio and Density of Materials
901 Subpart 3 Charts and Tables for Determining Shell Thickness of Components Under External Pressure
902 G Geometric Chart for Components Under External or Compressive Loadings (for All Materials)
904 CS-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Carbon or Low Alloy Steels With Specified Minimum Yield Strength Less Than 30,000 psi
905 CS-2 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Carbon or Low Alloy Steels With Specified Minimum Yield Strength 30,000 psi and Higher
906 CS-3 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Carbon Steel and Low Alloy Steels With Specified Minimum Yield Strength 38,000 psi and Higher for Temperatures 300°F and Less
907 CS-4 Chart for Determining Shell Thickness of Components Under External Pressure Developed for SA-537 Thickness 21/2 in. and Less
908 CS-5 Chart for Determining Shell Thickness of Components Under External Pressure Developed for SA-508 Class 1, Grades 2 and 3; SA-508 Class 2, Grade 2; SA-533 Class 1, Grades A, B, C, and D; SA-533 Class 2, Grades A, B, C, and D; or SA-541 Grades 2 and 3
909 CS-6 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Carbon Steel With Specified Minimum Yield Strength of 20,000 psi
910 HT-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Quenched and Tempered Low Alloy Steel With Specified Minimum Yield Strength of 100,000 psi and Thickness 21/2 in. and Less
911 HT-2 Chart for Determining Shell Thickness of Components Under External Pressure Developed for SA-508 Grade 4N, Class 2 or SA-543 Types B and C, Class 2 With Specified Minimum Yield Strength of 100,000 psi
912 HA-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Austenitic Steel 18Cr–8Ni, Type 304
913 HA-2 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Austenitic Steel 16Cr–12Ni–2Mo, Type 316
914 HA-3 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Austenitic Steel 18Cr–8Ni–0.035 Maximum Carbon, Type 304L
915 HA-4 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Austenitic Steel 18Cr–8Ni–Mo–0.035 Maximum Carbon, Type 316L
916 HA-5 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Austenitic–Ferritic Steel 18Cr–5Ni–3Mo S31500
917 HA-6 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Austenitic Steel 21Cr–11Ni–N S30815
918 HA-7 Chart for Determining Shell Thickness of Components Under External Pressure Developed for SA-564 Type 630 H1150 (17Cr–4Ni–4Cu S17400)
919 HA-8 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Austenitic–Ferritic Steel 25Cr–7Ni–3Mo–2W–0.28N S39274
920 HA-9 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Austenitic Steel 25Cr–7.5Ni–3.5Mo–N–Cu–W S32760
921 HA-10 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Austenitic Stainless Steel 24Cr–17Ni–6Mn–4.5Mo–N S34565
922 CI-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Cast Iron
923 CD-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Cast Ductile Iron With a Specified Minimum Yield Strength of 40,000 psi
924 CD-2 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Cast Ductile Iron With a Specified Minimum Yield Strength of 29,000 psi
925 NFA-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 3003 in 0 Temper
926 NFA-2 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 3003 in H14 Temper
927 NFA-3 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 3004 in 0 Temper
928 NFA-4 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 3004 in H34 Temper
929 NFA-5 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 5154 in 0 Temper
930 NFA-6 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 5454 in 0 Temper
931 NFA-7 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 1060 in 0 Temper
932 NFA-8 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 5052 in 0 Temper
933 NFA-9 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 5086 in 0 Temper
934 NFA-10 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 5456 in 0 Temper
935 NFA-11 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Alloy 5083 in 0 Temper
936 NFA-12 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Welded Aluminum Alloy 6061‐T6
937 NFA-13 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Welded Aluminum Alloy 6061‐T4
938 NFC-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed Copper, Type DHP
939 NFC-2 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Copper–Silicon Alloy C65500
940 NFC-3 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed 90–10 Copper–Nickel Alloy
941 NFC-4 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed 70–30 Copper–Nickel Alloy
942 NFC-5 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Welded Copper–Iron Alloy Tube C19400 (SB-543 Welded)
943 NFC-6 Chart for Determining Shell Thickness of Components Under External Pressure Developed for SB-75 and SB-111 Light Drawn Seamless Copper Tubes, Alloys C10200, C12000, C12200, and C14200
944 NFC-7 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed Copper, SB-75, UNS C12200, Temper 050
945 NFC-8 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Aluminum Bronze Alloy C61400
946 NFN-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed Low Carbon Nickel N02201
947 NFN-2 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed Nickel N02200
948 NFN-3 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed Nickel–Copper Alloy N04400
949 NFN-4 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed Nickel–Chromium–Iron Alloy N06600
950 NFN-5 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Molybdenum Alloy N10001
951 NFN-6 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Molybdenum–Chromium–Iron Alloy N10003
952 NFN-7 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Iron–Chromium–Molybdenum–Copper Alloy N08825
953 NFN-8 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed Nickel–Iron–Chromium Alloy N08800
954 NFN-9 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed Nickel–Iron–Chromium Alloy N08810
955 NFN-10 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Low Carbon Nickel–Molybdenum–Chromium Alloy N10276
956 NFN-11 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Solution Treated Nickel–Chromium–Iron–Molybdenum–Copper Alloy N06007
957 NFN-12 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Chromium–Nickel–Iron–Molybdenum–Copper–Columbium Alloy N08020
958 NFN-13 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Iron–Chromium–Silicon Alloy N08330
959 NFN-14 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Chromium–Molybdenum Alloy N06455
960 NFN-15 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Molybdenum Alloy N06002
961 NFN-16 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Molybdenum Alloy N10665
962 NFN-17 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Annealed Nickel–Chromium–Molybdenum–Columbium Alloy N06625 (SB-443, SB-444, and SB-446)
963 NFN-18 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Molybdenum–Chromium–Iron–Copper Alloy N06985 Having a Minimum Yield Strength of 35 ksi
964 NFN-19 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Molybdenum–Chromium–Iron–Copper Alloy N06985 Having a Minimum Yield Strength of 30 ksi
965 NFN-20 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Work‐Hardened Nickel
966 NFN-21 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel–Chromium–Iron Alloy N06600 (Specified Minimum Yield Strength 40,000 psi)
967 NFN-22 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Solution Annealed Ni–Cr–Mo–Cb Alloy, Grade 2 N06625
968 NFN-23 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Cold Worked Nickel–Iron–Chromium Alloy N08800
969 NFN-24 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Nickel Alloy N06230
970 NFN-25 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Stress Relieved Nickel Alloy N02200
971 NFN-26 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Alloy S31277
972 NFN-27 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Alloy N06035
973 NFT-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Unalloyed Titanium Grade 3 (UNS R50550)
974 NFT-2 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Unalloyed Titanium Grade 2 (UNS R50400)
975 NFT-3 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Titanium Grade 1 (UNS R50250)
976 NFT-4 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Titanium Grade 9 Alloy (UNS R56320)
977 NFT-5 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Titanium Grade 12 Alloy (UNS R53400)
978 NFT-6 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Titanium Grade 38 (UNS R54250)
979 NFZ-1 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Zirconium Alloy (UNS R60702)
980 NFZ-2 Chart for Determining Shell Thickness of Components Under External Pressure Developed for Zirconium Alloy (UNS R60705)
981 G Tabular Values for Figure G
983 CS-1 Tabular Values for Figure CS-1
984 CS-2 Tabular Values for Figure CS-2
985 CS-3 Tabular Values for Figure CS-3
986 CS-4 Tabular Values for Figure CS-4
CS-5 Tabular Values for Figure CS-5
987 CS-6 Tabular Values for Figure CS-6
HT-1 Tabular Values for Figure HT-1
988 HT-2 Tabular Values for Figure HT-2
HA-1 Tabular Values for Figure HA-1
989 HA-2 Tabular Values for Figure HA-2
HA-3 Tabular Values for Figure HA-3
990 HA-4 Tabular Values for Figure HA-4
HA-5 Tabular Values for Figure HA-5
991 HA-6 Tabular Values for Figure HA-6
992 HA-7 Tabular Values for Figure HA-7
HA-8 Tabular Values for Figure HA-8
993 HA-9 Tabular Values for Figure HA-9
994 HA-10 Tabular Values for Figure HA-10
995 CI-1 Tabular Values for Figure CI-1
CD-1 Tabular Values for Figure CD-1
CD-2 Tabular Values for Figure CD-2
996 NFA-1 Tabular Values for Figure NFA-1
997 NFA-2 Tabular Values for Figure NFA-2
998 NFA-3 Tabular Values for Figure NFA-3
999 NFA-4 Tabular Values for Figure NFA-4
NFA-5 Tabular Values for Figure NFA-5
1000 NFA-6 Tabular Values for Figure NFA-6
NFA-7 Tabular Values for Figure NFA-7
1001 NFA-8 Tabular Values for Figure NFA-8
NFA-9 Tabular Values for Figure NFA-9
1002 NFA-10 Tabular Values for Figure NFA-10
NFA-11 Tabular Values for Figure NFA-11
1003 NFA-12 Tabular Values for Figure NFA-12
1004 NFA-13 Tabular Values for Figure NFA-13
NFC-1 Tabular Values for Figure NFC-1
1005 NFC-2 Tabular Values for Figure NFC-2
NFC-3 Tabular Values for Figure NFC-3
1006 NFC-4 Tabular Values for Figure NFC-4
NFC-5 Tabular Values for Figure NFC-5
1007 NFC-6 Tabular Values for Figure NFC-6
NFC-7 Tabular Values for Figure NFC-7
1008 NFC-8 Tabular Values for Figure NFC-8
NFN-1 Tabular Values for Figure NFN-1
1009 NFN-2 Tabular Values for Figure NFN-2
NFN-3 Tabular Values for Figure NFN-3
1010 NFN-4 Tabular Values for Figure NFN-4
NFN-5 Tabular Values for Figure NFN-5
1011 NFN-6 Tabular Values for Figure NFN-6
NFN-7 Tabular Values for Figure NFN-7
1012 NFN-8 Tabular Values for Figure NFN-8
1013 NFN-9 Tabular Values for Figure NFN-9
1014 NFN-10 Tabular Values for Figure NFN-10
NFN-11 Tabular Values for Figure NFN-11
1015 NFN-12 Tabular Values for Figure NFN-12
NFN-13 Tabular Values for Figure NFN-13
1016 NFN-14 Tabular Values for Figure NFN-14
1017 NFN-15 Tabular Values for Figure NFN-15
1018 NFN-16 Tabular Values for Figure NFN-16
1019 NFN-17 Tabular Values for Figure NFN-17
1020 NFN-18 Tabular Values for Figure NFN-18
1021 NFN-19 Tabular Values for Figure NFN-19
1022 NFN-20 Tabular Values for Figure NFN-20
1023 NFN-22 Tabular Values for Figure NFN-22
1024 NFN-23 Tabular Values for Figure NFN-23
1025 NFN-24 Tabular Values for Figure NFN-24
1026 NFN-25 Tabular Values for Figure NFN-25
NFN-26 Tabular Values for Figure NFN-26
1027 NFN-27 Tabular Values for Figure NFN-27
1028 NFT-1 Tabular Values for Figure NFT-1
1029 NFT-2 Tabular Values for Figure NFT-2
NFT-3 Tabular Values for Figure NFT-3
1030 NFT-4 Tabular Values for Figure NFT-4
1031 NFT-5 Tabular Values for Figure NFT-5
1032 NFT-6 Tabular Values for Figure NFT-6
1033 NFZ-1 Tabular Values for Figure NFZ-1
NFZ-2 Tabular Values for Figure NFZ-2
1034 Mandatory Appendices
Mandatory Appendix 1 Basis for Establishing Stress Values in Tables 1A and 1B
1-100 Derivation of Allowable Stress Values
1035 1-100 Criteria for Establishing Allowable Stress Values for Tables 1A and 1B
1036 Mandatory Appendix 2 Basis for Establishing Design Stress Intensity Values for Tables 2A, 2B, and 4, and Allowable Stress Values for Table 3
2-100 Derivation of Stress Intensity Values
2-110 Criteria for Materials other than Bolting: Tables 2A and 2B
2-120 Criteria for Bolting Materials in Table 3 for use with Section III (Class 2 and 3 Rules); Section VIII, Division 1; Section VIII, Division 2 (Part 4.16 Rules); and Section XII
1037 2-130 Criteria for Bolting Materials in Table 4 for Use With Section VIII, Division 2, Part 5 and Annex 5.F; and With Section III, Subsections NB and WB
2-100(a) Criteria for Establishing Design Stress Intensity Values for Tables 2A and 2B
1038 2-100(b) Criteria for Establishing Allowable Stress Values for Table 3
2-100(c) Criteria for Establishing Allowable Stress or Design Stress Intensity Values for Table 4
1039 Mandatory Appendix 3 Basis for Establishing External Pressure Charts
3-100 General
3-200 Basis of Charts in Subpart 3
3-300 Use of Charts in Subpart 3
3-400 Background and Development of Theory
3-500 Design Basis
1040 3-600 Criteria for Allowable Stresses
1041 3-500.1 Temperature Limits for Application of Section II External Pressure Charts for Cylinder Under External Pressure
1042 3-700 Procedure and Responsibility for Chart Development
3-500.2 Temperature Limits for Application of Section II External Pressure Charts for Cylinder Under Axial Compression
1043 3-500.3 Temperature Limits for Application of Section II External Pressure Charts for Sphere Under External Pressure
1044 3-700.1 Normalization of Test σ–ε to σy min and Ecode
1045 3-800 Alternate Procedure for Determining Allowable Compressive Stresses
3-900 References
1046 Mandatory Appendix 5 Guidelines on the Approval of New Materials Under the ASME Boiler and Pressure Vessel Code
5-100 Code Policy
5-200 Application
1047 5-300 Chemical Composition
5-400 Metallurgical Structure and Heat Treatment
5-500 Mechanical Properties
5-600 Definitions for Data Collection Purposes
5-700 Required Sampling
5-800 Time-Independent Properties
1048 5-900 Time-Dependent Properties
5-1000 Low-Temperature Properties
1049 5-800 ASTM Test Methods and Units for Reporting
1050 5-1100 Toughness Data
5-1200 Stress–Strain Curves
5-1300 Fatigue Data
5-1400 Physical Properties
5-1500 Data Requirements for Welds, Weldments, and Weldability
1051 5-1600 Long-Term Properties Stability
5-1700 Requests for Additional Data
5-1800 New Materials Checklist
1052 5-1500 Example of a Comparison of Allowable Stresses of Base Metals With Compositions Similar to Those of Selected Welding Consumables and the Proposed New Base Metal
1053 5-1900 Requirements for Recognized National or International Specifications
5-2000 Publication of Recognized National or International Specifications
5-2100 CEN Specifications
1054 Mandatory Appendix 7 Guidelines on Multiple Marking of Materials
7-100 Background
7-200 Guidelines
7-210 Acceptability of Multiple Marking
7-220 Prohibition on Multiple Marking
7-230 Grade Substitution
7-240 Marking Selection
1055 7-250 Other Markings
1056 Mandatory Appendix 9 Standard Units for Use in Equations
9-100 Standard Units for Use in Equations
1057 Mandatory Appendix 10 Basis for Establishing Maximum Allowable Stress Values for Tables 5A and 5B
10-100 Derivation of Allowable Stress Values
10-100 Criteria for Establishing Allowable Stress Values for Tables 5A and 5B
1058 10-110 Criteria for Materials Other Than Bolting
10-120 Criteria for Bolting Materials
1059 Nonmandatory Appendices
Nonmandatory Appendix A Issues Associated With Materials Used in ASME Code Construction
A-100 General
A-110 Issues Covered
1060 A-120 General References
A-200 Metallurgical Changes That Can Occur in Service
1061 A-201 Graphitization
A-202 Spheroidization (Softening)
1062 A-203 Temper Embrittlement
A-204 Strain Aging
1063 A-205 Cold Working (Cold Strain)
A-206 Relaxation Cracking (Strain-Induced Precipitation Hardening)
1064 A-207 885°F Embrittlement
A-208 Sigma Phase Embrittlement
A-209 Laves and Laves Phase Precipitation
1065 A-210 Sensitization (Carbide Formation)
A-211 Thermal Aging Embrittlement
1066 A-212 Radiation Embrittlement
A-213 Solidification Cracking
1067 A-300 Uniform Corrosion
A-301 General Corrosion and Wastage
A-302 Atmospheric Corrosion
A-303 Galvanic Corrosion
A-304 Stray Current Corrosion
1068 A-305 High-Temperature Corrosion
A-306 Soil Corrosion
A-307 Caustic Corrosion
A-308 Carbon Dioxide Corrosion
1069 A-309 Concentration Cell Corrosion
A-310 Differential-Temperature Cell Corrosion
A-311 Molten Salt Corrosion
A-312 Liquid Metal Corrosion
1070 A-400 Localized Corrosion
A-401 Pitting Corrosion
A-402 Filiform Corrosion
A-403 Crevice Corrosion (and Denting)
1071 A-404 Microbiologically Influenced Corrosion
A-500 Metallurgically Influenced Corrosion
A-501 Intergranular Corrosion
1072 A-502 Dealloying Corrosion (Dezincification and Graphite Corrosion)
A-503 Grooving
A-600 Mechanically Assisted Corrosion
A-601 Velocity-Affected Corrosion
1073 A-602 Erosion-Corrosion
A-603 Impingement Corrosion
A-604 Cavitation Erosion
A-605 Corrosion Fatigue
A-700 Environmmentally Induced Embrittlement and Cracking
A-701 Stress Corrosion Cracking
1074 A-702 Hydrogen Damage
1076 A-703 Liquid Metal Embrittlement
A-704 Caustic Embrittlement
A-705 Flow-Accelerated Corrosion
1077 A-706 Sulfur Embrittlement
A-800 Mechanical Damage Mechanisms
A-801 Fretting and Wear
A-802 Thermal Fatigue
1078 A-803 Dynamic Loading
A-804 Anisotropy
1079 Nonmandatory Appendix B Developing Nominal Composition Designations for ASME Code Materials
B-100 Background
B-200 General Guideline for All Materials
1080 B-300 Guidelines for Developing Nominal Composition Designations for Ferrous Materials
B-400 Guidelines for Developing Nominal Composition Designations for Nonferrous Materials
B-410 Nickel Alloys
B-420 Aluminum Alloys
B-430 Copper Alloys
B-440 Titanium Alloys
B-450 Zirconium Alloys
1081 B-460 Cobalt Alloys
B-500 Summary
1082 Nonmandatory Appendix C Guidance for the Use of U.S. Customary and SI Units in the ASME Boiler and Pressure Vessel Code
C-100 Use of Units in Equations
C-200 Guidelines Used to Develop SI Equivalents
1084 C-300 Soft Conversion Factors
1085 Nonmandatory Appendix D Guidelines for Rounding Minimum Specified Tensile and Yield Strength Values and for Establishing Anchor Points for Tensile and Yield Strength Trend Curves in Tables 1A, 1B, 2A, 2B, 3, 4, 5A, 5B, U, U-2, and Y-1
D-100 Minimum Tensile Strength and Minimum Yield Strength Columns
D-110 Dual Unit Specifications
D-120 Two Separate Specifications for the Same Product Form
D-130 Specification Exists in Only One Set of Units
D-200 Selecting Anchor Point for Tensile and Yield Strength Trend Curves for All Situations in Which the Minimum RT Specified Values in One Unit System Are Not Precise Conversions of the Units in the Other System
D-210 One Material Has One Trend Curve Rule
1086 D-220 Anchoring the Trend Curve
D-230 Equivalent Materials
D-300 Significant Figures in the Allowable Stress, Tensile Strength, and Yield Strength Tables in Section II, Part D and in Code Cases
D-310 U.S. Customary Tables
D-320 Metric Tables
1087 Nonmandatory Appendix E Material Data for Stress Analysis in the Time-Dependent Regime
E-100 Introduction
E-100.1-1 Tensile Strength Values, Su
1088 E-100.1-2 Tensile and Yield Strength Reduction Factor Due to Long Time Prior Elevated Temperature Service
E-100.1-3 Yield Strength Reduction Factors for 21/4Cr–1Mo
1089 E-100.1-4 Tensile Strength Reduction Factors for 21/4Cr–1Mo
E-100.1-5 Tensile Strength Reduction Factors for 9Cr–1Mo–V
1090 E-100.2-1 Permissible Time/Temperature Conditions for Material That Has Been Cold Worked >5% and <20% and Subjected to Short‐Time High Temperature Transients
1091 E-100.3-1 Permissible Base Materials for Structures Other Than Bolting
1092 E-100.3-2 Permissible Weld Materials
E-100.3-3 So — Maximum Allowable Stress Intensity, ksi, for Design Condition Calculations
1093 E-100.4-1 Smt — Allowable Stress Intensity Values, ksi, Type 304 SS — 30-YS, 75-UTS (30-YS, 70-UTS)
1094 E-100.4-2 Smt — Allowable Stress Intensity Values, ksi, Type 316 SS — 30-YS, 75-UTS (30-YS, 70-UTS)
1095 E-100.4-3 Smt — Allowable Stress Intensity Values, ksi, Ni–Fe–Cr (Alloy 800H)
1097 E-100.4-4 Smt — Allowable Stress Intensity Values, ksi, 21/4Cr–1Mo
1098 E‐100.4‐5 Smt — Allowable Stress Intensity Values, ksi, 9Cr–1Mo–V
1099 E‐100.5‐1 St — Allowable Stress Intensity Values, ksi, Type 304 SS
1100 E‐100.5‐2 St — Allowable Stress Intensity Values, ksi, Type 316 SS
1101 E‐100.5‐3 St — Allowable Stress Intensity Values, ksi, Ni–Fe–Cr (Alloy 800H)
1102 E‐100.5‐4 St — Allowable Stress Intensity Values, ksi, 21/4Cr–1Mo
1103 E‐100.5‐5 St — Allowable Stress Intensity Values, ksi, 9Cr–1Mo–V
1104 E-100.6-1 Yield Strength Values, Sy, Versus Temperature
1105 E-100.7-1 Expected Minimum Stress-to-Rupture Values, ksi, Type 304 SS
1106 E-100.7-2 Expected Minimum Stress-to-Rupture Values, ksi, Type 316 SS
1107 E-100.7-3 Expected Minimum Stress‐to‐Rupture Values, ksi, Ni–Fe–Cr (Alloy 800H)
1108 E-100.7-4 Expected Minimum Stress-to-Rupture Values, ksi, 21/4Cr–1Mo
1109 E-100.7-5 Expected Minimum Stress-to-Rupture Values, ksi, Ni–Cr–Fe–Mo–Cb (Alloy 718)
1110 E-100.7-6 Expected Minimum Stress-to-Rupture Values, ksi, 9Cr–1Mo–V
1111 E-100.8-1 Stress Rupture Factors for Type 304 Stainless Steel Welded With SFA-5.22 E308T and E308LT, SFA-5.4 E308 and E308L, and SFA-5.9 ER308 and ER308L
E-100.8-2 Stress Rupture Factors for Type 304 Stainless Steel Welded With SFA-5.22 EXXXT‐G (16‐8‐2 Chemistry), SFA-5.4 E16‐8‐2, and SFA-5.9 ER16‐8‐2
1112 E-100.8-3 Stress Rupture Factors for Type 304 Stainless Steel Welded With SFA-5.22 E316T and E316LT‐1, ‐2, and ‐3; SFA-5.4 E316 and E316L; and SFA-5.9 ER316 and ER316L
E-100.9-1 Stress Rupture Factors for Type 316 Stainless Steel Welded With SFA-5.22 E308T and E308LT, SFA-5.4 E308 and E308L, and SFA-5.9 ER308 and ER308L
1113 E-100.9-2 Stress Rupture Factors for Type 316 Stainless Steel Welded With SFA-5.22 EXXXT‐G (16‐8‐2 Chemistry), SFA-5.4 E16‐8‐2, and SFA-5.9 ER16‐8‐2
E-100.9-3 Stress Rupture Factors for Type 316 Stainless Steel Welded With SFA-5.22 E316T and E316LT‐1 and ‐2, SFA-5.4 E316 and E316L, and SFA-5.9 ER316 and ER316L
1114 E-100.10-1 Stress Rupture Factors for Alloy 800H Welded With SFA-5.11 ENiCrFe‐2 (INCO A)
E-100.10-2 Stress Rupture Factors for Alloy 800H Welded With SFA-5.14 ERNiCr‐3 (INCO 82)
1115 E-100.11-1 Stress Rupture Factors for 21/4Cr–1Mo (60/30) Welded With SFA-5.28 E90C‐B3, SFA-5.28 ER90S‐B3, SFA-5.5 E90XX‐B3 (>0.05C), SFA-5.23 EB3, SFA-5.23 ECB3 (>0.05C), and SFA-5.29 E90T1‐B3 (>0.05C)
E-100.12-1 Stress Rupture Factors for 9Cr–1Mo–V Welded With SFA-5.28 ER90S‐B9, SFA-5.5 E90XX‐B9, and SFA-5.23 EB9
1116 E-100.13-1 Permissible Materials for Bolting
E-100.14-1 So — Maximum Allowable Stress Intensity, ksi, for Design Condition Calculations of Bolting Materials
1117 E-100.15-1 Smt — Allowable Stress Intensity, Type 304 SS, Bolting
E-100.15-2 Smt — Allowable Stress Intensity, Type 316 SS, Bolting
1118 E-100.15-3 Smt — Allowable Stress Values, ksi, Alloy 718, Bolting
1119 E-100.16-1 Design Fatigue Strain Range, ϵt, for 304 SS
1120 E-100.16-2 Design Fatigue Strain Range, ϵt, for 316 SS
1121 E-100.16-3 Design Fatigue Strain Range, ϵt, for Ni–Fe–Cr Alloy 800H
1122 E-100.16-4 Design Fatigue Strain Range, ϵt, for 21/4Cr–1Mo Steel
1123 E-100.16-5 Design Fatigue Strain Range, ϵt, for 9Cr–1Mo–V Steel
1124 E-100.17-1 Time–Temperature Limits for Application of Section II External Pressure Charts for Cylinder Under Axial Compression
1125 E-100.17-2 Time–Temperature Limits for Application of Section II External Pressure Charts for Sphere Under External Pressure
1126 E-100.17-3 Temperature Limits for Application of Section II External Pressure Charts for Cylinder Under External Pressure
1127 E-100.18-1 Average Isochronous Stress–Strain Curves for Type 304 SS at 800°F
1128 E-100.18-2 Average Isochronous Stress–Strain Curves for Type 304 SS at 850°F
1129 E-100.18-3 Average Isochronous Stress–Strain Curves for Type 304 SS at 900°F
1130 E-100.18-4 Average Isochronous Stress–Strain Curves for Type 304 SS at 950°F
1131 E-100.18-5 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,000°F
1132 E-100.18-6 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,050°F
1133 E-100.18-7 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,100°F
1134 E-100.18-8 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,150°F
1135 E-100.18-9 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,200°F
1136 E-100.18-10 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,250°F
1137 E-100.18-11 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,300°F
1138 E-100.18-12 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,350°F
1139 E-100.18-13 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,400°F
1140 E-100.18-14 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,450°F
1141 E-100.18-15 Average Isochronous Stress–Strain Curves for Type 304 SS at 1,500°F
1142 E-100.19-1 Average Isochronous Stress–Strain Curves for Type 316 SS at 800°F
1143 E-100.19-2 Average Isochronous Stress–Strain Curves for Type 316 SS at 850°F
1144 E-100.19-3 Average Isochronous Stress–Strain Curves for Type 316 SS at 900°F
1145 E-100.19-4 Average Isochronous Stress–Strain Curves for Type 316 SS at 950°F
1146 E-100.19-5 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,000°F
1147 E-100.19-6 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,050°F
1148 E-100.19-7 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,100°F
1149 E-100.19-8 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,150°F
1150 E-100.19-9 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,200°F
1151 E-100.19-10 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,250°F
1152 E-100.19-11 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,300°F
1153 E-100.19-12 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,350°F
1154 E-100.19-13 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,400°F
1155 E-100.19-14 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,450°F
1156 E-100.19-15 Average Isochronous Stress–Strain Curves for Type 316 SS at 1,500°F
1157 E-100.20-1 Average Isochronous Stress–Strain Curves for Alloy 800H at 800°F and 850°F
1158 E-100.20-2 Average Isochronous Stress–Strain Curves for Alloy 800H at 900°F
1159 E-100.20-3 Average Isochronous Stress–Strain Curves for Alloy 800H at 950°F
1160 E-100.20-4 Average Isochronous Stress–Strain Curves for Alloy 800H at 1,000°F
1161 E-100.20-5 Average Isochronous Stress–Strain Curves for Alloy 800H at 1,050°F
1162 E-100.20-6 Average Isochronous Stress–Strain Curves for Alloy 800H at 1,100°F
1163 E-100.20-7 Average Isochronous Stress–Strain Curves for Alloy 800H at 1,150°F
1164 E-100.20-8 Average Isochronous Stress–Strain Curves for Alloy 800H at 1,200°F
1165 E-100.20-9 Average Isochronous Stress–Strain Curves for Alloy 800H at 1,250°F
1166 E-100.20-10 Average Isochronous Stress–Strain Curves for Alloy 800H at 1,300°F
1167 E-100.20-11 Average Isochronous Stress–Strain Curves for Alloy 800H at 1,350°F
1168 E-100.20-12 Average Isochronous Stress–Strain Curves for Alloy 800H at 1,400°F
1169 E-100.21-1 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 700°F
1170 E-100.21-2 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 750°F
1171 E-100.21-3 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 800°F
1172 E-100.21-4 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 850°F
1173 E-100.21-5 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 900°F
1174 E-100.21-6 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 950°F
1175 E-100.21-7 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 1,000°F
1176 E-100.21-8 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 1,050°F
1177 E-100.21-9 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 1,100°F
1178 E-100.21-10 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 1,150°F
1179 E-100.21-11 Average Isochronous Stress–Strain Curves for Annealed 21/4Cr–1Mo at 1,200°F
1180 E-100.22-1 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 700°F
E-100.22-2 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 750°F
1181 E-100.22-3 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 800°F
E-100.22-4 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 850°F
1182 E-100.22-5 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 900°F
E-100.22-6 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 950°F
1183 E-100.22-7 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 1,000°F
E-100.22-8 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 1,050°F
1184 E-100.22-9 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 1,100°F
E-100.22-10 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 1,150°F
1185 E-100.22-11 Average Isochronous Stress–Strain Curves for 9Cr–1Mo–V at 1,200°F
1186 E-100.23-1 Recommended Restrictions
1187 E-100.24-1 Cross-Reference Table of Section II, Part D and Section III, Subsection NH 2015 Edition
1191 Endnotes

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