Stress in ASME Pressure Vessels, Boilers, and Nuclear Components

 
 
Standards Information Network (Verlag)
  • erschienen am 13. September 2017
  • |
  • 352 Seiten
 
E-Book | PDF mit Adobe DRM | Systemvoraussetzungen
978-1-119-25926-8 (ISBN)
 
An illustrative guide to the analysis needed to achieve a safe design in ASME Pressure Vessels, Boilers, and Nuclear Components
Stress in ASME Pressure Vessels, Boilers, and Nuclear Components offers a revised and updatededition of the text, Design of Plate and Shell Structures. This important resource offers engineers and students a text that covers the complexities involved in stress loads and design of plates and shell components in compliance with pressure vessel, boiler, and nuclear standards. The author covers the basic theories and includes a wealth of illustrative examples for the design of components that address the internal and external loads as well as other loads such as wind and dead loads.
The text keeps the various derivations relatively simple and the resulting equations are revised to a level so that they can be applied directly to real-world design problems. The many examples clearly show the level of analysis needed to achieve a safe design based on a given required degree of accuracy. Written to be both authoritative and accessible, this important updated book:
* Offers an increased focus on mechanical engineering and contains more specific and practical code-related guidelines
* Includes problems and solutions for course and professional training use
* Examines the basic aspects of relevant theories and gives examples for the design of components
* Contains various derivations that are kept relatively simple so that they can be applied directly to design problems
Written for professional mechanical engineers and students, this text offers a resource to the theories and applications that are needed to achieve an understanding of stress loads and design of plates and shell components in compliance with pressure vessel, boiler, and nuclear standards.
1. Auflage
  • Englisch
  • Somerset
  • |
  • USA
John Wiley & Sons Inc
  • Für Beruf und Forschung
  • 12,10 MB
978-1-119-25926-8 (9781119259268)
1119259266 (1119259266)
weitere Ausgaben werden ermittelt
Maan H. Jawad, PhD, PE, ASME Life Fellow, is active on several technical committees of the American Society of Mechanical Engineers related to boilers and pressure vessels since 1972. He is President of his own engineering consulting firm and was formerly Director of Engineering of Nooter Corporation. He is the author of Guide to the Design of ASME Section VIII Pressure Vessels, now in its fourth edition.
1 - Title Page [Seite 5]
2 - Copyright Page [Seite 6]
3 - Contents [Seite 7]
4 - Series Preface [Seite 11]
5 - Acknowledgment [Seite 13]
6 - Chapter 1 Membrane Theory of Shells of Revolution [Seite 15]
6.1 - 1.1 Introduction [Seite 15]
6.2 - 1.2 Basic Equations of Equilibrium [Seite 15]
6.3 - 1.3 Spherical and Ellipsoidal Shells Subjected to Axisymmetric Loads [Seite 20]
6.3.1 - 1.3.1 Spherical Shells Subjected to Internal Pressure [Seite 21]
6.3.2 - 1.3.2 Spherical Shells under Various Loading Conditions [Seite 22]
6.3.3 - 1.3.3 ASME Code Equations for Spherical Shells under Various Loading Conditions [Seite 28]
6.3.4 - 1.3.4 Ellipsoidal Shells under Internal Pressure [Seite 29]
6.4 - 1.4 Conical Shells [Seite 32]
6.5 - 1.5 Cylindrical Shells [Seite 34]
6.6 - 1.6 Cylindrical Shells with Elliptical Cross Section [Seite 36]
6.7 - 1.7 Design of Shells of Revolution [Seite 37]
6.8 - Problems [Seite 37]
7 - Chapter 2 Various Applications of the Membrane Theory [Seite 41]
7.1 - 2.1 Analysis of Multicomponent Structures [Seite 41]
7.2 - 2.2 Pressure-Area Method of Analysis [Seite 49]
7.3 - 2.3 Deflection Due to Axisymmetric Loads [Seite 56]
7.4 - Problems [Seite 61]
8 - Chapter 3 Analysis of Cylindrical Shells [Seite 65]
8.1 - 3.1 Elastic Analysis of Thick-Wall Cylinders [Seite 65]
8.2 - 3.2 Thick Cylinders with Off-center Bore [Seite 70]
8.3 - 3.3 Stress Categories and Equivalent Stress Limits for Design and Operating Conditions [Seite 71]
8.4 - 3.4 Plastic Analysis of Thick Wall Cylinders [Seite 77]
8.5 - 3.5 Creep Analysis of Thick-Wall Cylinders [Seite 79]
8.6 - 3.6 Shell Equations in the ASME Code [Seite 83]
8.6.1 - 3.6.1 Boiler Code: Section I [Seite 83]
8.6.2 - 3.6.2 Nuclear Code: Section III [Seite 84]
8.6.3 - 3.6.3 Pressure Vessel Code: Section VIII [Seite 85]
8.6.4 - 3.6.4 Basis of Simplified Lame´s Equations in the ASME Code [Seite 85]
8.7 - 3.7 Bending of Thin-Wall Cylinders Due to Axisymmetric Loads [Seite 85]
8.7.1 - 3.7.1 Basic Equations [Seite 85]
8.7.2 - 3.7.2 Long Cylindrical Shells [Seite 90]
8.7.3 - 3.7.3 Long Cylindrical Shells with End Loads [Seite 96]
8.7.4 - 3.7.4 Short Cylindrical Shells [Seite 102]
8.8 - 3.8 Thermal Stress [Seite 103]
8.8.1 - 3.8.1 Stress Due to Thermal Gradient in the Axial Direction [Seite 103]
8.8.2 - 3.8.2 Stress Due to Thermal Gradient in the Radial Direction [Seite 105]
8.9 - 3.9 Discontinuity Stresses [Seite 112]
8.10 - Problems [Seite 114]
9 - Chapter 4 Buckling of Cylindrical Shells [Seite 117]
9.1 - 4.1 Introduction [Seite 117]
9.2 - 4.2 Basic Equations [Seite 117]
9.3 - 4.3 Lateral Pressure [Seite 122]
9.4 - 4.4 Lateral and End Pressure [Seite 128]
9.5 - 4.5 Axial Compression [Seite 131]
9.6 - 4.6 Design Equations [Seite 134]
9.6.1 - 4.6.1 External Pressure [Seite 134]
9.6.2 - 4.6.2 Axial Compression [Seite 141]
9.7 - Problems [Seite 150]
10 - Chapter 5 Stress in Shells of Revolution Due to Axisymmetric Loads [Seite 155]
10.1 - 5.1 Elastic Stress in Thick-Wall Spherical Sections Due to Pressure [Seite 155]
10.2 - 5.2 Spherical Shells in the ASME Code [Seite 156]
10.2.1 - 5.2.1 Section I: Power Boilers [Seite 156]
10.2.2 - 5.2.2 Section III: Nuclear Components [Seite 157]
10.2.3 - 5.2.3 Section VIII: Pressure Vessels [Seite 158]
10.3 - 5.3 Stress in Ellipsoidal Shells Due to Pressure Using Elastic Analysis [Seite 159]
10.4 - 5.4 Ellipsoidal (Dished) Heads in the ASME Code [Seite 160]
10.4.1 - 5.4.1 Section I: Power Boilers [Seite 160]
10.4.2 - 5.4.2 Section III: Nuclear Components [Seite 162]
10.4.3 - 5.4.3 Section VIII: Pressure Vessels [Seite 163]
10.5 - 5.5 Stress in Thick-Wall Spherical Sections Due to Pressure Using Plastic Analysis [Seite 164]
10.6 - 5.6 Stress in Thick-Wall Spherical Sections Due to Pressure Using Creep Analysis [Seite 164]
10.7 - 5.7 Bending of Shells of Revolution Due to Axisymmetric Loads [Seite 165]
10.8 - 5.8 Spherical Shells [Seite 170]
10.8.1 - 5.8.1 Cylindrical Shell [Seite 178]
10.8.2 - 5.8.2 Hemispherical Shell [Seite 179]
10.9 - 5.9 Conical Shells [Seite 179]
10.10 - Problems [Seite 188]
11 - Chapter 6 Buckling of Shells of Revolution [Seite 189]
11.1 - 6.1 Elastic Buckling of Spherical Shells [Seite 189]
11.2 - 6.2 ASME Procedure for External Pressure [Seite 193]
11.3 - 6.3 Buckling of Stiffened Spherical Shells [Seite 194]
11.4 - 6.4 Ellipsoidal Shells [Seite 195]
11.5 - 6.5 Buckling of Conical Shells [Seite 195]
11.6 - 6.6 Various Shapes [Seite 198]
11.7 - Problems [Seite 198]
12 - Chapter 7 Bending of Rectangular Plates [Seite 201]
12.1 - 7.1 Introduction [Seite 201]
12.2 - 7.2 Strain-Deflection Equations [Seite 203]
12.3 - 7.3 Stress-Deflection Expressions [Seite 208]
12.4 - 7.4 Force-Stress Expressions [Seite 210]
12.5 - 7.5 Governing Differential Equations [Seite 211]
12.6 - 7.6 Boundary Conditions [Seite 214]
12.7 - 7.7 Double Series Solution of Simply Supported Plates [Seite 218]
12.8 - 7.8 Single Series Solution of Simply Supported Plates [Seite 220]
12.9 - 7.9 Rectangular Plates with Fixed Edges [Seite 225]
12.10 - 7.10 Plate Equations in the ASME Code [Seite 226]
12.10.1 - 7.10.1 Boiler Code: Section I [Seite 226]
12.10.2 - 7.10.2 Nuclear Code: Section III [Seite 226]
12.10.3 - 7.10.3 Pressure Vessel Code: Section VIII [Seite 227]
12.11 - Problems [Seite 227]
13 - Chapter 8 Bending of Circular Plates [Seite 229]
13.1 - 8.1 Plates Subjected to Uniform Loads in the ?-Direction [Seite 229]
13.2 - 8.2 Circular Plates in the ASME Code [Seite 239]
13.3 - 8.3 Plates on an Elastic Foundation [Seite 241]
13.4 - 8.4 Plates with Variable Boundary Conditions [Seite 245]
13.5 - 8.5 Design of Circular Plates [Seite 248]
13.6 - Problems [Seite 249]
14 - Chapter 9 Approximate Analysis of Plates [Seite 253]
14.1 - 9.1 Introduction [Seite 253]
14.2 - 9.2 Yield Line Theory [Seite 253]
14.3 - 9.3 Further Application of the Yield Line Theory [Seite 261]
14.4 - 9.4 Design Concepts [Seite 267]
14.5 - Problems [Seite 269]
15 - Chapter 10 Buckling of Plates [Seite 273]
15.1 - 10.1 Circular Plates [Seite 273]
15.2 - 10.2 Rectangular Plates [Seite 277]
15.3 - 10.3 Rectangular Plates with Various Boundary Conditions [Seite 285]
15.4 - 10.4 Finite Difference Equations for Buckling [Seite 289]
15.5 - 10.5 Other Aspects of Buckling [Seite 291]
15.6 - 10.6 Application of Buckling Expressions to Design Problems [Seite 293]
15.6.1 - 10.6.1 Single- and Double-Angle Struts [Seite 294]
15.6.2 - 10.6.2 Stems of Ts [Seite 294]
15.6.3 - 10.6.3 Flanges of Box Sections [Seite 295]
15.6.4 - 10.6.4 Perforated Cover Plates [Seite 295]
15.6.5 - 10.6.5 Other Compressed Members [Seite 296]
15.7 - Problems [Seite 296]
16 - Chapter 11 Finite Element Analysis [Seite 297]
16.1 - 11.1 Definitions [Seite 297]
16.2 - 11.2 One-Dimensional Elements [Seite 301]
16.3 - 11.3 Linear Triangular Elements [Seite 309]
16.4 - 11.4 Axisymmetric Triangular Linear Elements [Seite 316]
16.5 - 11.5 Higher-Order Elements [Seite 319]
16.6 - 11.6 Nonlinear Analysis [Seite 321]
16.6.1 - 11.6.1 Plastic Analysis [Seite 322]
16.6.2 - 11.6.2 Buckling Analysis [Seite 322]
16.6.3 - 11.6.3 Creep Analysis [Seite 322]
17 - Appendix A: Fourier Series [Seite 323]
17.1 - A.1 General Equations [Seite 323]
17.2 - A.2 Interval Change [Seite 327]
17.3 - A.3 Half-Range Expansions [Seite 328]
17.4 - A.4 Double Fourier Series [Seite 330]
18 - Appendix B: Bessel Functions [Seite 333]
18.1 - B.1 General Equations [Seite 333]
18.2 - B.2 Some Bessel Identities [Seite 337]
18.3 - B.3 Simplified Bessel Functions [Seite 339]
19 - Appendix C: Conversion Factors [Seite 341]
20 - Answers to Selected Problems [Seite 343]
21 - References [Seite 345]
22 - Index [Seite 349]
23 - EULA [Seite 352]

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