ASME BPVC II D M 2010
$377.00
ASME BPVC – II – D – M -2010 BPVC Section II, Materials, Part D, Properties (Metric)
| Published By | Publication Date | Number of Pages |
| ASME | 2010 | 912 |
None
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 5 | CONTENTS |
| 10 | LIST OF SECTIONS |
| 12 | FOREWORD |
| 14 | STATEMENT OF POLICY |
| 15 | PERSONNEL |
| 27 | SUMMARY OF CHANGES |
| 36 | LIST OF CHANGES IN RECORD NUMBER ORDER |
| 39 | SUBPART 1 STRESS TABLES STATEMENT OF POLICY ON INFORMATION PROVIDED IN THE STRESS TABLES |
| 40 | GUIDELINE ON LOCATING MATERIALS IN STRESS TABLES, AND IN TABLES OF MECHANICAL AND PHYSICAL PROPERTIES |
| 44 | TABLE 1A SECTION I; SECTION III, CLASSES 2 AND 3;* SECTION VIII, DIVISION 1; AND SEC |
| 188 | TABLE 1B SECTION I; SECTION III, CLASSES 2 AND 3;* SECTION VIII, DIVISION 1; AND SECTION XIIMAXIMUM ALLOWABLE STRESS VALUES S FOR NONFERROUS MATERIALS |
| 306 | TABLE 2A SECTION III, DIVISION 1, CLASS 1 AND SECTION III, DIVISION 3, CLASSES TC AND SCDESIGN STRESS INTENSITY VALUES Sm FOR FERROUS MATERIALS |
| 364 | TABLE 2B SECTION III, DIVISION 1, CLASS 1 AND SECTION III, DIVISION 3, CLASSES TC AND SCDESIGN STRESS INTENSITY VALUES Sm FOR NONFERROUS MATERIALS |
| 372 | TABLE 3 SECTION III, CLASSES 2 AND 3;* SECTION VIII, DIVISIONS 1 and 2;† AND SECTION XIIMAXIMUM ALLOWABLE STRESS VALUES S FOR BOLTING MATERIALS |
| 402 | TABLE 4 SECTION III, CLASS 1, TC, AND SC; AND SECTION VIII, DIVISION 2*DESIGN STRESS INTENSITY VALUES Sm FOR BOLTING MATERIALS |
| 414 | TABLE 5A SECTION VIII, DIVISION 2MAXIMUM ALLOWABLE STRESS VALUES Sm FOR FERROUS MATERIALS |
| 472 | TABLE 5B SECTION VIII, DIVISION 2MAXIMUM ALLOWABLE STRESS VALUES Sm FOR NONFERROUS MATERIALS |
| 498 | TABLE U TENSILE STRENGTH VALUES Su FOR FERROUS AND NONFERROUS MATERIALS |
| 573 | TABLE U-2 SECTION VIII, DIVISION 3 TENSILE STRENGTH VALUES Su FOR FERROUS MATERIALS |
| 574 | TABLE Y-1 YIELD STRENGTH VALUES Sy FOR FERROUS AND NONFERROUS MATERIALS |
| 743 | TABLE Y-2 FACTORS FOR LIMITING PERMANENTSTRAIN IN NICKEL, HIGH NICKEL ALLOYS,AND HIGH ALLOY STEELS |
| 745 | SUBPART 2 PHYSICAL PROPERTIES TABLES INTRODUCTION |
| 746 | TABLE TE-1 THERMAL EXPANSION FOR FERROUS MATERIALS |
| 752 | TABLE TE-2 THERMAL EXPANSION FOR ALUMINUM ALLOYS |
| 753 | TABLE TE-3 THERMAL EXPANSION FOR COPPER ALLOYS |
| 754 | TABLE TE-4 THERMAL EXPANSION FOR NICKEL ALLOYS |
| 763 | TABLE TE-5 THERMAL EXPANSION FOR TITANIUM ALLOYS |
| 764 | TABLE TCD NOMINAL COEFFICIENTS OF THERMAL CONDUCTIVITY (TC) AND THERMAL DIFFUSIVITY (TD) |
| 776 | TABLE TM-1 MODULI OF ELASTICITY E OF FERROUS MATERIALS FOR GIVEN TEMPERATURES |
| 778 | TABLE TM-2 MODULI OF ELASTICITY E OF ALUMINUM AND ALUMINUM ALLOYSFOR GIVEN TEMPERATURE |
| 779 | TABLE TM-3 MODULI OF ELASTICITY E OF COPPER AND COPPER ALLOYS FOR GIVENTEMPERATURES |
| 780 | TABLE TM-4 MODULI OF ELASTICITY E OF HIGH NICKEL ALLOYS FOR GIVEN TEMPERATURES |
| 781 | TABLE TM-5 MODULI OF ELASTICITY E OF TITANIUM AND ZIRCONIUM FOR GIVEN TEMPERATURES |
| 782 | TABLE PRD POISSON’S RATIO AND DENSITY OF MATERIALS |
| 785 | SUBPART 3 CHARTS AND TABLES FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE |
| 786 | FIGURES FIG. G GEOMETRIC CHART FOR COMPONENTS UNDER EXTERNAL OR COMPRESSIVE LOADINGS (FOR ALL MATERIALS) |
| 788 | FIG. CS-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR CARBON OR LOW ALLOY STEELS WITH SPECIFIED MINIMUM YIELD STRENGTH LESS THAN207 MPa FIG. CS-2 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR CARBON OR LOW ALLOY STEELS WITH SPECIFIED MINIMUM YIELD STRENGTH 207 MPa ANDHIGHER |
| 789 | FIG. CS-3 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR CARBON STEEL AND LOW ALLOY STEELS WITH SPECIFIED MINIMUM YIELD STRENGTH260 MPa AND HIGHER FOR TEMPERATURES 150°C AND LESS FIG. CS-4 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR SA-537 THICKNESS 64 mm AND LESS |
| 790 | FIG. CS-5 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED 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 FIG. CS-6 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR CARBON STEEL WITH SPECIFIED MINIMUM YIELD STRENGTH OF 138 MPa |
| 791 | FIG. HT-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE EVELOPED FOR QUENCHED AND TEMPERED LOW ALLOY STEEL WITH SPECIFIED MINIMUM YIELDSTRENGTH OF 689 MPa AND THICKNESS 64 mm AND LESS FIG. HT-2 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE EVELOPED FOR SA-508 GRADE 4N, CLASS 2 OR SA-543 TYPES B AND C, CLASS 2 WITH SPECIFIED MINIMUMYIELD STRENGTH OF 689 MP |
| 792 | FIG. HA-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR AUSTENITIC STEEL 18Cr–8Ni, TYPE 304 FIG. HA-2 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR AUSTENITIC STEEL 16Cr–12Ni–2Mo, TYPE 316 |
| 793 | FIG. HA-3 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR AUSTENITIC STEEL 18Cr–8Ni–0.035 MAXIMUM CARBON, TYPE 304L FIG. 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 |
| 794 | FIG. HA-5 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR AUSTENITIC–FERRITIC STEEL 18Cr–5Ni–3Mo S31500 FIG. HA-6 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR AUSTENITIC STEEL 21Cr–11Ni–N S30815 |
| 795 | FIG. HA-7 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR SA-564 TYPE 630 H1150 (17Cr–4Ni–4Cu S17400) |
| 796 | FIG. HA-8 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR AUSTENITIC–FERRITIC STEEL 25Cr–7Ni–3Mo–2W–0.28N S39274 FIG. CI-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR CAST IRON |
| 797 | FIG. CD-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR CAST DUCTILE IRON WITH A SPECIFIED MINIMUM YIELD STRENGTH OF 275 MPa FIG. NFA-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ALUMINUM ALLOY 3003 IN O TEMPER |
| 798 | FIG. NFA-2 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ALUMINUM ALLOY 3003 IN H14 TEMPER |
| 799 | FIG. NFA-3 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ALUMINUM ALLOY 3004 IN O TEMPER |
| 800 | FIG. NFA-4 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ALUMINUM ALLOY 3004 IN H34 TEMPER |
| 801 | FIG. NFA-5 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ALUMINUM ALLOY 5154 IN O TEMPER FIG. NFA-6 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ALUMINUM ALLOY 5454 IN O TEMPER |
| 802 | FIG. NFA-7 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ALUMINUM ALLOY 1060 IN O TEMPER FIG. NFA-8 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ALUMINUM ALLOY 5052 IN O TEMPER |
| 803 | FIG. NFA-9 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ALUMINUM ALLOY 5086 IN O TEMPER FIG. NFA-10 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ALUMINUM ALLOY 5456 IN O TEMPER |
| 804 | FIG. NFA-11 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ALUMINUM ALLOY 5083 IN O TEMPER FIG. NFA-12 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR WELDED ALUMINUM ALLOY 6061-T6 |
| 805 | FIG. NFA-13 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR WELDED ALUMINUM ALLOY 6061-T4 FIG. NFC-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ANNEALED COPPER, TYPE DHP |
| 806 | FIG. NFC-2 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR COPPER–SILICON ALLOYS A AND C FIG. NFC-3 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ANNEALED 90–10 COPPER–NICKEL ALLOY |
| 807 | FIG. NFC-4 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ANNEALED 70–30 COPPER–NICKEL ALLOY FIG. NFC-5 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR WELDED COPPER–IRON ALLOY TUBE C19400 |
| 808 | FIG. NFC-6 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR SB-75 AND SB-111 LIGHT DRAWN SEAMLESS COPPER TUBES, ALLOYS C10200, C12000,C12200, AND C14200 FIG. NFC-7 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ANNEALED COPPER, SB-75, UNS C12200, TEMPER 050 |
| 809 | FIG. NFC-8 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ALUMINUM BRONZE ALLOY C61400 FIG. NFN-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ANNEALED LOW CARBON NICKEL N02201 |
| 810 | FIG. NFN-2 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ANNEALED NICKEL N02200 FIG. NFN-3 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ANNEALED NICKEL–COPPER ALLOY N04400 |
| 811 | FIG. NFN-4 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ANNEALED NICKEL–CHROMIUM–IRON ALLOY N06600 FIG. NFN-5 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR NICKEL–MOLYBDENUM ALLOY N10001 |
| 812 | FIG. NFN-6 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR NICKEL–MOLYBDENUM–CHROMIUM–IRON ALLOY N10003 FIG. NFN-7 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR NICKEL–IRON–CHROMIUM–MOLYBDENUM–COPPER ALLOY N08825 |
| 813 | FIG. NFN-8 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ANNEALED NICKEL–IRON–CHROMIUM ALLOY N08800 FIG. NFN-9 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ANNEALED NICKEL–IRON–CHROMIUM ALLOY N08810 |
| 814 | FIG. NFN-10 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR LOW CARBON NICKEL–MOLYBDENUM–CHROMIUM ALLOY N10276 FIG. NFN-11 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR SOLUTION TREATED NICKEL–CHROMIUM–IRON–MOLYBDENUM–COPPER ALLOY N06007 |
| 815 | FIG. NFN-12 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR CHROMIUM–NICKEL–IRON–MOLYBDENUM–COPPER–COLUMBIUM ALLOY N08020 FIG. NFN-13 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR NICKEL–IRON–CHROMIUM–SILICON ALLOY N08330 |
| 816 | FIG. NFN-14 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR NICKEL–CHROMIUM–MOLYBDENUM ALLOY N06455 FIG. NFN-15 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR NICKEL–MOLYBDENUM ALLOY N06002 |
| 817 | FIG. NFN-16 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR NICKEL–MOLYBDENUM ALLOY N10665 FIG. NFN-17 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ANNEALED NICKEL–CHROMIUM–MOLYBDENUM–COLUMBIUM ALLOY N06625 (SB-443, SB-444,AND SB-446) |
| 818 | FIG. NFN-18 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR NICKEL–MOLYBDENUM–CHROMIUM–IRON–COPPER ALLOY N06985 HAVING A MINIMUMYIELD STRENGTH OF 240 MPa FIG. NFN-19 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR NICKEL–MOLYBDENUM–CHROMIUM–IRON–COPPER ALLOY N06985 HAVING A MINIMUMYIELD STRENGTH OF 207 MPa |
| 819 | FIG. NFN-20 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR WORK-HARDENED NICKEL [NOTE (7)] FIG. NFN-21 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR NICKEL–CHROMIUM–IRON ALLOY N06600 (SPECIFIED MINIMUM YIELD STRENGTH 276 MPa) |
| 820 | FIG. NFN-22 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR SOLUTION ANNEALED Ni–Cr–Mo–Cb ALLOY, GRADE 2 N06625 FIG. NFN-23 CHART FOR DETERMINING SHELL THICKNESS OF COMP0NENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR COLD WORKED NICKEL–IRON–CHROMIUM ALLOY N08800 |
| 821 | FIG. NFN-24 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENT UNDER EXTERNAL PRESSURE DEVELOPED FOR NICKEL ALLOY N06230 FIG. NFN-25 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR STRESS RELIEVED NICKEL ALLOY N02200 |
| 822 | FIG. NFN-26 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ALLOY S31277 FIG. NFN-27 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSUREDEVELOPED FOR ALLOY N06035 |
| 823 | FIG. NFT-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR UNALLOYED TITANIUM GRADE 3 |
| 824 | FIG. NFT-2 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR UNALLOYED TITANIUM GRADE 2 FIG. NFT-3 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR TITANIUM GRADE 1 |
| 825 | FIG. NFT-4 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR TITANIUM GRADE 9 ALLOY FIG. NFT-5 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR TITANIUM GRADE 12 ALLOY |
| 826 | FIG. NFZ-1 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ZIRCONIUM ALLOY |
| 827 | FIG. NFZ-2 CHART FOR DETERMINING SHELL THICKNESS OF COMPONENTS UNDER EXTERNAL PRESSURE DEVELOPED FOR ZIRCONIUM ALLOY |
| 829 | TABLES TABLE G TABULAR VALUES FOR FIG. G |
| 831 | TABLE CS-1TABULAR VALUES FOR FIG. CS-1 |
| 832 | TABLE CS-2TABULAR VALUES FOR FIG. CS-2 TABLE CS-3TABULAR VALUES FOR FIG. CS-3 |
| 833 | TABLE CS-4TABULAR VALUES FOR FIG. CS-4 TABLE CS-5TABULAR VALUES FOR FIG. CS-5 |
| 834 | TABLE CS-6TABULAR VALUES FOR FIG. CS-6 TABLE HT-1TABULAR VALUES FOR FIG. HT-1 TABLE HT-2TABULAR VALUES FOR FIG. HT-2 |
| 835 | TABLE HA-1TABULAR VALUES FOR FIG. HA-1 |
| 836 | TABLE HA-2TABULAR VALUES FOR FIG. HA-2 TABLE HA-3TABULAR VALUES FOR FIG. HA-3 |
| 837 | TABLE HA-4TABULAR VALUES FOR FIG. HA-4 TABLE HA-5TABULAR VALUES FOR FIG. HA-5 |
| 838 | TABLE HA-6TABULAR VALUES FOR FIG. HA-6 |
| 839 | TABLE HA-7TABULAR VALUES FOR FIG. HA-7 TABLE HA-8TABULAR VALUES FOR FIG. HA-8 |
| 840 | TABLE CI-1TABULAR VALUES FOR FIG. CI-1 TABLE CD-1TABULAR VALUES FOR FIG. CD-1 |
| 841 | TABLE NFA-1TABULAR VALUES FOR FIG. NFA-1 |
| 842 | TABLE NFA-2TABULAR VALUES FOR FIG. NFA-2 |
| 843 | TABLE NFA-3TABULAR VALUES FOR FIG. NFA-3 |
| 844 | TABLE NFA-4TABULAR VALUES FOR FIG. NFA-4 TABLE NFA-5TABULAR VALUES FOR FIG. NFA-5 |
| 845 | TABLE NFA-6TABULAR VALUES FOR FIG. NFA-6 TABLE NFA-7TABULAR VALUES FOR FIG. NFA-7 |
| 846 | TABLE NFA-8TABULAR VALUES FOR FIG. NFA-8 TABLE NFA-9TABULAR VALUES FOR FIG. NFA-9 TABLE NFA-10TABULAR VALUES FOR FIG. NFA-10 |
| 847 | TABLE NFA-11TABULAR VALUES FOR FIG. NFA-11 |
| 848 | TABLE NFA-12TABULAR VALUES FOR FIG. NFA-12 TABLE NFA-13TABULAR VALUES FOR FIG. NFA-13 |
| 849 | TABLE NFC-1TABULAR VALUES FOR FIG. NFC-1 TABLE NFC-2TABULAR VALUES FOR FIG. NFC-2 TABLE NFC-3TABULAR VALUES FOR FIG. NFC-3 |
| 850 | TABLE NFC-4TABULAR VALUES FOR FIG. NFC-4 TABLE NFC-5TABULAR VALUES FOR FIG. NFC-5 |
| 851 | TABLE NFC-6TABULAR VALUES FOR FIG. NFC-6 TABLE NFC-7TABULAR VALUES FOR FIG. NFC-7 |
| 852 | TABLE NFC-8TABULAR VALUES FOR FIG. NFC-8 TABLE NFN-1TABULAR VALUES FOR FIG. NFN-1 |
| 853 | TABLE NFN-2TABULAR VALUES FOR FIG. NFN-2 |
| 854 | TABLE NFN-3TABULAR VALUES FOR FIG. NFN-3 |
| 855 | TABLE NFN-4TABULAR VALUES FOR FIG. NFN-4 TABLE NFN-5TABULAR VALUES FOR FIG. NFN-5 |
| 856 | TABLE NFN-6TABULAR VALUES FOR FIG. NFN-6 TABLE NFN-7TABULAR VALUES FOR FIG. NFN-7 |
| 857 | TABLE NFN-8TABULAR VALUES FOR FIG. NFN-8 |
| 858 | TABLE NFN-9TABULAR VALUES FOR FIG. NFN-9 |
| 859 | TABLE NFN-10TABULAR VALUES FOR FIG. NFN-10 TABLE NFN-11TABULAR VALUES FOR FIG. NFN-11 |
| 860 | TABLE NFN-12TABULAR VALUES FOR FIG. NFN-12 TABLE NFN-13TABULAR VALUES FOR FIG. NFN-13 |
| 861 | TABLE NFN-14TABULAR VALUES FOR FIG. NFN-14 |
| 862 | TABLE NFN-15TABULAR VALUES FOR FIG. NFN-15 TABLE NFN-15TABULAR VALUES FOR FIG. NFN-15 |
| 863 | TABLE NFN-16TABULAR VALUES FOR FIG. NFN-16 |
| 864 | TABLE NFN-17TABULAR VALUES FOR FIG. NFN-17 |
| 865 | TABLE NFN-18TABULAR VALUES FOR FIG. NFN-18 |
| 866 | TABLE NFN-19TABULAR VALUES FOR FIG. NFN-19 |
| 867 | TABLE NFN-20TABULAR VALUES FOR FIG. NFN-20 TABLE NFN-22TABULAR VALUES FOR FIG. NFN-22 |
| 868 | TABLE NFN-23TABULAR VALUES FOR FIG. NFN-23 |
| 869 | TABLE NFN-24TABULAR VALUES FOR FIG. NFN-24 |
| 870 | TABLE NFN-25TABULAR VALUES FOR FIG. NFN-25 TABLE NFN-26TABULAR VALUES FOR FIG. NFN-26 |
| 871 | TABLE NFN-27TABULAR VALUES FOR FIG. NFN-27 |
| 872 | TABLE NFT-1TABULAR VALUES FOR FIG. NFT-1 |
| 873 | TABLE NFT-2TABULAR VALUES FOR FIG. NFT-2 TABLE NFT-3TABULAR VALUES FOR FIG. NFT-3 |
| 874 | TABLE NFT-4TABULAR VALUES FOR FIG. NFT-4 |
| 875 | TABLE NFT-5TABULAR VALUES FOR FIG. NFT-5 |
| 876 | TABLE NFZ-1TABULAR VALUES FOR FIG. NFZ-1 TABLE NFZ-2TABULAR VALUES FOR FIG. NFZ-2 |
| 877 | MANDATORY APPENDICES MANDATORY APPENDIX 1 BASIS FOR ESTABLISHING STRESS VALUES IN TABLES 1A AND 1B |
| 880 | MANDATORY APPENDIX 2 BASIS FOR ESTABLISHING DESIGN STRESS INTENSITY VALUES FOR TABLES 2A, 2B, AND 4, AND ALLOWABLE STRESS VALUES FOR TABLE 3 |
| 883 | MANDATORY APPENDIX 3 BASIS FOR ESTABLISHING EXTERNAL PRESSURE CHARTS |
| 888 | MANDATORY APPENDIX 4 SUBMITTAL OF TECHNICAL INQUIRIES TO THE BOILER AND PRESSURE VESSEL COMMITTEE |
| 890 | MANDATORY APPENDIX 5 GUIDELINE ON THE APPROVAL OF NEW MATERIALS UNDER THE ASME BOILER AND PRESSURE VESSEL CODE |
| 894 | MANDATORY APPENDIX 7 GUIDELINES ON MULTIPLE MARKING OF MATERIALS |
| 896 | MANDATORY APPENDIX 9 STANDARD UNITS FOR USE IN EQUATIONS |
| 897 | MANDATORY APPENDIX 10 BASIS FOR ESTABLISHING MAXIMUM ALLOWABLE STRESS VALUES FOR TABLES 5A AND 5B |
| 899 | NONMANDATORY APPENDICES NONMANDATORY APPENDIX A METALLURGICAL PHENOMENA |
| 907 | NONMANDATORY APPENDIX C GUIDANCE FOR THE USE OF U. S. CUSTOMARY AND SI UNITS IN THE ASME BOILER AND PRESSURE VESSEL CODE |
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NFPA 70, National Electrical Code (NEC) 2020
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CA CityofLosAngelesPlumbingCode 2014
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CA CityofLosAngelesResidentialCode 2017
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ASME BPVC V 2007
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BS EN 71-3:1995:2001 Edition
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ASME A17.1 Handbook 2013
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ICC IRC 2024 1stptg
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ASME BPVC V 2021
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ASME BPVC II D M 2019
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NY StateResidentialCode 2020
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NJ ResidentialCode 2015
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FL FloridaResidentialCode 2017
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