ASME PTB 5 2019
$98.04
ASME PTB-5-2019 – ASME Boiler and Pressure Vessel Code, Section VIII, Division 3, Example Problem Manual
| Published By | Publication Date | Number of Pages |
| ASME | 2019 | 32 |
This document is the ASME B&PV Code, Section VIII, Division 3 example problem manual. The example problems in this manual follow the calculation procedures in ASME B&PV Code, Section VIII, Division 3. ASME B&PV Code, Section VIII, Division 3 contains mandatory requirements, specific prohibitions, and non-mandatory guidance for the design, materials, fabrication, examination, inspection, testing, and certification of high pressure vessels and their associated pressure relief devices. This manual is based on the 2019 edition of the code.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 4 | TABLE OF CONTENTS |
| 8 | FORWARD |
| 9 | EXECUTIVE SUMMARY |
| 10 | ABBREVIATIONS AND ACRONYMS |
| 12 | PURPOSE AND USE Scope |
| 14 | PART 1 |
| 15 | 1 Example Problem Descriptions 1.1 General |
| 16 | 1.2 Calculation Precision |
| 17 | PART 2 |
| 18 | 2 Example Problems, Materials 2.1 Example Problem E-KM-2.1.1 – Evaluation of Testing for Cylindrical Forgings in Accordance with KM-2 |
| 19 | 2.2 Example Problem E-KM-2.1.2 – Calculation of Fracture Toughness based on Charpy Impact Tests (KM-251) |
| 20 | 2.3 Example Problem E-KM-2.2.1 –Generate a Stress-Strain Curve for Use in Elastic-Plastic Finite Element Analysis |
| 24 | PART 3 |
| 25 | 3 Example Problems, General Design Issues 3.1 Example Problem E-KD-2.1.1 – Determination of Design Pressure in Cylindrical Vessel – Monobloc Vessel |
| 28 | 3.2 Example Problem E-KD-2.1.2 – Determination of Design Pressure in Cylindrical Vessel – Dual Layered Vessel |
| 30 | 3.3 Example Problem E-KD-2.2.1 – Elastic Plastic Analysis |
| 38 | 3.4 Example Problem E-KD-2.2.2 – Protection Against Local Failure (Elastic-Plastic Analysis) |
| 44 | 3.5 Example Problem E-KD-2.2.3 – Ratcheting Assessment Elastic-Plastic Stress Analysis |
| 49 | 3.6 Example Problem E-KD-2.2.4 – Protection Against Local Failure for a Series of Applied Loads |
| 52 | 3.7 Example Problem E-KD-2.3.1 – Linear Elastic Stress Analysis |
| 61 | 3.8 Example Problem E-KD-2.3.2 – Elastic Stress Analysis Protection Against Local Failure Mandatory Appendix 9-280 |
| 62 | PART 4 |
| 63 | 4 Example Problems Fatigue Assessment 4.1 Example Problem E-KD-3.1.1 – Evaluation of Leak-Before-Burst in Cylindrical Vessel – Monobloc Vessel |
| 67 | 4.2 Example Problem E-KD-3.1.2 – Evaluation of Leak-Before-Burst in Cylindrical Vessel – Dual Layered Vessel |
| 69 | 4.3 Example Problem E-KD-3.1.3 – Fatigue Assessment of Welds – Elastic Analysis and Structural Stress |
| 72 | 4.4 Example Problem E-KD-3.1.4 – Non-Welded Vessel using Design Fatigue Curves |
| 75 | 4.5 Example Problem E-KD-3.1.5 – Autofrettaged, Non-Welded Vessel using Design Fatigue Curves |
| 79 | PART 5 |
| 80 | 5 Example Problems Life Assessment Using Fracture Mechanics 5.1 Example Problem E-KD-4.1.1 – Determine the Design Life of a Vessel from E-KD-2.1.1 |
| 88 | PART 6 |
| 89 | 6 Example Problems on Residual Stresses using Autofrettage 6.1 Example Problem E-KD-5.1.1 – Determine Residual Stresses in Autofrettaged Cylinder Wall with Known Autofrettage Pressure |
| 94 | 6.2 Example Problem E-KD-5.1.2 – Determine the Autofrettage Pressure in a Cylinder Wall with known Residual ID Tangential Strain |
| 95 | PART 7 |
| 96 | 7 Example Problems in Closures and Connections 7.1 Example Problem E-KD-6.1.1 – Evaluation of a Connection in a 60-ksi Pressure Vessel at 100 F |
| 98 | 7.2 Example Problem E-KD-6.1.2 – Alternative Evaluation of Stresses in Threaded End Closures |
| 99 | 7.3 Example Problem E-KD-6.1.3 – Evaluation of Yoke Misalignment KD-652.2 |
| 105 | PART 8 |
| 106 | 8 Example Problems on Residual Stresses in Multiwall Vessels 8.1 Example Problem E-KD-8.1.1 – Dual Wall Cylindrical Vessel Stress Distribution |
| 108 | PART 9 |
| 109 | 9 Example Problems in Wire Wound Vessels 9.1 Example Problem E-KD-9.1.1 – Stress Evaluation in Wire Wound Cylinder |
| 114 | PART 10 |
| 115 | 10 Example Problems in Determination of Hydrostatic Test Pressure 10.1 Example Problem E-KT-3.1.1 – Determination of Hydrostatic Test Pressure in Cylindrical Vessel |
| 117 | PART 11 |
| 118 | 11 Example Problems Using the Methods of Appendix E 11.1 Example Problem E-AE-2.1.1 – Blind End Dimensions and Corner Stresses in a Vessel without Detailed Stress Analysis – Thick Wall Pressure Vessel |
| 119 | 11.2 Example Problem E-AE-2.1.2 – Blind End Dimensions and Corner Stresses in a Vessel without Detailed Stress Analysis – Thin Wall Pressure Vessel |
| 120 | 11.3 Example Problem E-AE-2.2.1 – Thread Load Distribution |
| 122 | References |
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