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ASME STP PT 096 1 2024

ASME STP PT 096 1 2024

$75.42

ASME STP-PT-096-1-2024 Elevated Temperature Material Property Compilation for Design-By Analysis (with February 2024 Errata)

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ASME 2024
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The goal of this publication is to organize and compile high-temperature material property data for select alloys, to be used in the ASME Boiler and Pressure Vessel Code. It is expected that the properties compiled in this project will be used to support continued and expanded use of elevated temperature design-by-analysis (DBA), to support initiatives such as advanced ultra-supercritical fossil power generation and Gen IV high-temperature nuclear reactor, among other applications.

PDF Catalog

PDF Pages PDF Title
4 Errata to STP-PT-096-1
6 TABLE OF CONTENTS
9 LIST OF TABLES
12 LIST OF FIGURES
31 FOREWORD
32 ABBREVIATIONS AND ACRONYMS
33 1 INTRODUCTION
34 2 EXECUTIVE SUMMARY
37 3 ANALYSIS
3.1 Compilation and Digitization of Material Properties
3.2 Physical Properties
38 3.3 Yield and Tensile Strength
3.4 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
3.5 Continuous Cycling Fatigue and Hold Time Fatigue Curves
40 4 Grade 91, 9CR-1MO-V
4.1 Physical Properties
4.2 Yield and Tensile Strength
4.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
41 4.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
69 5 CARBON STEEL (SA-516/SA-299) AND SIMILAR
5.1 Physical Properties
5.2 Yield and Tensile Strength
5.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
70 5.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
99 6 CARBON STEEL (SA-508) AND SIMILAR
6.1 Physical Properties
6.2 Yield and Tensile Strength
6.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
100 6.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
118 7 CARBON STEEL (SA-533) AND SIMILAR
7.1 Physical Properties
7.2 Yield and Tensile Strength
7.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
119 7.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
137 8 C-1/2MO
8.1 Physical Properties
8.2 Yield and Tensile Strength
8.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
138 8.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
161 9 GRADE 11, 1.25CR-0.5MO-SI
9.1 Physical Properties
9.2 Yield and Tensile Strength
9.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
162 9.4 Continuous Cycling Fatigue Curves
182 10 GRADE 22 (2.25CR-1MO)
10.1 Physical Properties
10.2 Yield and Tensile Strength
10.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
183 10.4 Continuous Cycling Fatigue Curves
206 11 GRADE 22V (2.25CR-1MO-V)
11.1 Physical Properties
11.2 Yield and Tensile Strength
11.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
207 11.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
232 12 5CR-0.5MO (GRADE 5)
12.1 Physical Properties
12.2 Yield and Tensile Strength
12.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
233 12.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
256 13 5CR-0.5MO-SI (GRADE 5A)
13.1 Physical Properties
13.2 Yield and Tensile Strength
13.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
257 13.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
279 14 GRADE 9, 9CR-1MO
14.1 Physical Properties
14.2 Yield and Tensile Strength
14.3 Creep Data (Creep Rupture, Minimum Creep rate, and Ductility)
280 14.4 Continuous Cycling Fatigue and Hold Time Curves
303 15 GRADE 92 (9CR-2W)
15.1 Physical Properties
15.2 Yield and Tensile Strength
15.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
304 15.4 Continuous Cycling and Hold Time Fatigue Data
325 16 TYPE 304H (AND 304) STAINLESS STEEL
16.1 Physical Properties
16.2 Yield and Tensile Strength
16.3 Creep data (Creep Rupture, Minimum Creep Rate, and Ductility)
326 16.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
349 17 TYPE 316H (AND 316) STAINLESS STEEL
17.1 Physical Properties
17.2 Yield and Tensile Strength
17.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
350 17.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
374 18 TYPE 347H (AND 347) STAINLESS STEEL
18.1 Physical Properties
18.2 Yield and Tensile Strength
18.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
375 18.4 Continuous Cycling Fatigue Curves
396 19 ALLOY 617, 52NI-22CR-13CO-9MO
19.1 Physical Properties
19.2 Yield and Tensile Strength
19.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
397 19.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
422 20 INCONEL 740H
20.1 Physical Properties
20.2 Yield and Tensile Strength
20.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
423 20.4 Continuous Cycling Fatigue Curves
438 21 ALLOY 800H, 33NI-42FE-21CR
21.1 Physical Properties
21.2 Yield and Tensile Strength
21.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
439 21.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
468 22 GRADE 12, 1CR-0.5MO
22.1 Physical Properties
22.2 Yield and Tensile Strength
22.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
469 22.4 Hold Time Fatigue Curves
490 23 GRADE 23
23.1 Physical Properties
23.2 Yield and Tensile Strength
23.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
491 23.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
508 24 GRADE 21 (3CR)
24.1 Physical Properties
24.2 Yield and Tensile Strength
24.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
509 24.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
527 25 TYPE 410 (13CR)/12CR
25.1 Physical Properties
25.2 Yield and Tensile Strength
25.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
528 25.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
556 26 321H 18CR-10NI-TI
26.1 Physical Properties
26.2 Yield and Tensile Strength
26.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
557 26.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
581 27 ALLOY 601
27.1 Physical Properties
27.2 Yield and Tensile Strength
27.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
582 27.4 Continuous Cycling Fatigue Curves
597 28 ALLOY 709
28.1 Physical Properties
28.2 Yield and Tensile Strength
28.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
598 28.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
614 29 B7 BOLTING, 1CR-0.3MO
29.1 Physical Properties
29.2 Yield and Tensile Strength
29.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
615 29.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
634 30 B16 BOLTING, 1CR-0.5MO-V
30.1 Physical Properties
30.2 Yield and Tensile Strength
30.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
635 30.4 Hold Time Fatigue Curves
653 31 B8 BOLTING, 18CR-8NI
31.1 Physical Properties
31.2 Yield and Tensile Strength
31.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
654 31.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
671 32 GRADE 660, 25NI-15CR-1MO-2TI-MN-AL-V
32.1 Physical Properties
32.2 Yield and Tensile Strength
32.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
672 32.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
698 33 INCONEL 718 BOLTING
33.1 Physical Properties
33.2 Yield and Tensile Strength
33.3 Creep Data (Creep Rupture, Minimum Creep Rate, and Ductility)
699 33.4 Continuous Cycling Fatigue and Hold Time Fatigue Curves
719 References

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