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ASME PTB 4 2013

ASME PTB 4 2013

$98.04

ASME PTB-4 ASME Section VIII-Division 1 Example Problem Manual

Published By Publication Date Number of Pages
ASME 2013 465
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This document is the second edition of the ASME Section VIII

PDF Catalog

PDF Pages PDF Title
7 Foreword
9 Acknowledgements
10 PART 1
1.1 Introduction
1.2 Scope
1.3 Definitions
1.4 Organization and Use
1.5 Comparison of VIII-1 and VIII-2 Design Rules
1.6 ASME Code Case 2695
11 1.7 References
12 1.8 Tables
14 PART 2
2.1 General
2.2 Example Problem Format
2.3 Calculation Precision
15 PART 3
3.1 Commentary on Rules to Establish the Minimum Design Metal Temperature (MDMT)
19 3.2 Example E3.1 ā€“ Use of MDMT Exemptions Curves
20 3.3 Example E3.2 ā€“ Use of MDMT Exemption Curves with Stress Reduction
21 3.4 Example E3.3 ā€“ Determine the MDMT for a Nozzle-to-Shell Welded Assembly
26 PART 4
4.1 General Requirements
4.1.1 Example E4.1.1 ā€“ Review of General Requirements for a Vessel Design
27 4.1.2 Example E4.1.2 ā€“ Required Wall Thickness of a Hemispherical Head
29 4.2 Welded Joints
4.2.1 Example E4.2.1 ā€“ Nondestructive Examination Requirement for Vessel Design
30 4.2.2 Example E4.2.2 ā€“ Nozzle Detail and Weld Sizing
32 4.2.3 Example E4.2.3 ā€“ Nozzle Detail with Reinforcement Pad and Weld Sizing
35 4.3 Internal Design Pressure
4.3.1 Example E4.3.1 ā€“ Cylindrical Shell
36 4.3.2 Example E4.3.2 ā€“ Conical Shell
37 4.3.3 Example E4.3.3 ā€“ Spherical Shell
4.3.4 Example E4.3.4 ā€“ Torispherical Head
41 4.3.5 Example E4.3.5 ā€“ Elliptical Head
44 4.3.6 Example E4.3.6 ā€“ Combined Loadings and Allowable Stresses
53 4.3.7 Example E4.3.7 ā€“ Conical Transitions Without a Knuckle
76 4.3.8 Example E4.3.8 – Conical Transitions with a Knuckle
82 4.4 Shells Under External Pressure and Allowable Compressive Stresses
4.4.1 Example E4.4.1 – Cylindrical Shell
85 4.4.2 Example E4.4.2 – Conical Shell
89 4.4.3 Example E4.4.3 – Spherical Shell and Hemispherical Head
92 4.4.4 Example E4.4.4 – Torispherical Head
95 4.4.5 Example E4.4.5 – Elliptical Head
98 4.4.6 Example E4.4.6 – Combined Loadings and Allowable Compressive Stresses
118 4.4.7 Example E4.4.7 – Conical Transitions without a Knuckle
146 4.4.8 Example E4.4.8 – Conical Transitions with a Knuckle
155 4.5 Shells Openings in Shells and Heads
4.5.1 Example E4.5.1 ā€“ Radial Nozzle in Cylindrical Shell
164 4.5.2 Example E4.5.2 ā€“ Hillside Nozzle in Cylindrical Shell
174 4.5.3 Example E4.5.3 ā€“ Radial Nozzle in Ellipsoidal Head
182 4.5.4 Example E4.5.4 ā€“ Radial Nozzle in Cylindrical Shell
188 4.5.5 Example E4.5.5 ā€“ Pad Reinforced Radial Nozzle in Cylindrical Shell
197 4.5.6 Example E4.5.6 ā€“ Radial Nozzle in an Ellipsoidal Head with Inside Projection
203 4.6 Flat Heads
4.6.1 Example E4.6.1 – Flat Unstayed Circular Heads Attached by Bolts
204 4.6.2 Example E4.6.2 ā€“ Flat Un-stayed Non-Circular Heads Attached by Welding
205 4.6.3 Example E4.6.3 ā€“ Integral Flat Head with a Centrally Located Opening
213 4.7 Spherically Dished Bolted Covers
4.7.1 Example E4.7.1 ā€“ Thickness Calculation for a Type D Head
224 4.7.2 Example E4.7.2 ā€“ Thickness Calculation for a Type D Head Using the Alternative Rule in VIII-2, Paragraph 4.7.5.3
233 4.8 Quick-Actuating (Quick Opening) Closures
4.8.1 Example E4.8.1 ā€“ Review of Requirements for Quick-Actuating Closures
235 4.9 Braced and Stayed Surfaces
4.9.1 Example E4.9.1 – Braced and Stayed Surfaces
238 4.10 Ligaments
4.10.1 Example E4.10.1 – Ligaments
240 4.11 Jacketed Vessels
4.11.1 Example E4.11.1 – Partial Jacket
242 4.11.2 Example E4.11.2 – Half-Pipe Jacket
245 4.12 NonCircular Vessels
4.12.1 Example E4.12.1 – Unreinforced Vessel of Rectangular Cross Section
252 4.12.2 Example E4.12.2 – Reinforced Vessel of Rectangular Cross Section
270 4.13 Layered Vessels
4.13.1 Example E4.13.1 ā€“ Layered Cylindrical Shell
271 4.13.2 Example E4.13.2 ā€“ Layered Hemispherical Head
272 4.13.3 Example E4.13.3 ā€“ Maximum Permissible Gap in a Layered Cylindrical Shell
273 4.14 Evaluation of Vessels Outside of Tolerance
4.14.1 Example E4.14.1 ā€“ Shell Tolerances
4.14.2 Example E4.14.2 – Local Thin Area
275 4.15 Supports and Attachments
4.15.1 Example E4.15.1 – Horizontal Vessel with Zickā€™s Analysis
283 4.15.2 Example E4.15.2 ā€“ Vertical Vessel, Skirt Design
294 4.16 Flanged Joints
4.16.1 Example E4.16.1 – Integral Type
305 4.16.2 Example E4.16.2 – Loose Type
316 4.17 Clamped Connections
4.17.1 Example E4.17.1 – Flange and Clamp Design Procedure
328 4.18 Tubesheets in Shell and Tube Heat Exchangers
4.18.1 Example E4.18.1 – U-Tube Tubesheet Integral with Shell and Channel
331 4.18.2 Example E4.18.2 – U-Tube Tubesheet Gasketed With Shell and Channel
334 4.18.3 Example E4.18.3 – U-Tube Tubesheet Gasketed With Shell and Channel
336 4.18.4 Example E4.18.4 – U-Tube Tubesheet Gasketed With Shell and Integral with Channel, Extended as a Flange
340 4.18.5 Example E4.18.5 – Fixed Tubesheet Exchanger, Configuration b, Tubesheet Integral with Shell, Extended as a Flange and Gasketed on the Channel Side
351 4.18.6 Example E4.18.6 – Fixed Tubesheet Exchanger, Configuration b, Tubesheet Integral with Shell, Extended as a Flange and Gasketed on the Channel Side
366 4.18.7 Example E4.18.7 – Fixed Tubesheet Exchanger, Configuration a
379 4.18.8 Example E4.18.8 – Stationary Tubesheet Gasketed With Shell and Channel; Floating Tubesheet Gasketed, Not Extended as a Flange
386 4.18.9 Example E4.18.9 – Stationary Tubesheet Gasketed With Shell and Channel; Floating Tubesheet Integral
395 4.18.10 Example E4.18.10 – Stationary Tubesheet Gasketed With Shell and Channel; Floating Tubesheet Internally Sealed
403 4.19 Bellows Expansion Joints
4.19.1 Example E4.19.1 ā€“ U-Shaped Un-reinforced Bellows Expansion Joint and Fatigue Evaluation
411 4.19.2 Example E4.19.2 – Toroidal Bellows Expansion Joint and Fatigue Evaluation
418 4.20 Tube-To-Tubesheet Welds
4.20.1 Example E4.20.1 ā€“ Full Strength Welds
425 4.20.2 Example E4.20.2 ā€“ Partial Strength Welds
432 4.21 Nameplates
4.21.1 Example E4.21.1 ā€“ Single Chamber Pressure Vessel
434 4.21.2 Example E4.21.2 ā€“ Single Chamber Pressure Vessel
435 4.21.3 Example E4.21.3 ā€“ Shell and Tube Heat Exchanger
436 PART 5
5.1 Design-By-Analysis for Section VIII, Division 1
5.2 Paragraph U-2(g) ā€“ Design-By-Analysis Provision without Procedures
439 PART 6
6.1 Example E6.1 ā€“ Postweld Heat Treatment of a Pressure Vessel
442 6.2 Example E6.2 ā€“ Out-of-Roundness of a Cylindrical Forged Vessel
445 PART 7
7.1 Inspection and Examination Rules Commentary
452 7.2 Example E7.1 ā€“ NDE: Establish Joint Efficiencies, RT-1
454 7.3 Example E7.2 ā€“ NDE: Establish Joint Efficiencies, RT-2
456 7.4 Example E7.3 ā€“ NDE: Establish Joint Efficiencies, RT-3
458 7.5 Example E7.4 ā€“ NDE: Establish Joint Efficiencies, RT-4
461 PART 8
8.1 Example E8.1 ā€“ Determination of a Hydrostatic Test Pressure
462 8.2 Example E8.2 ā€“ Determination of a Pneumatic Test Pressure

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