Hello All!
if Anyone have this book please share!
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Hello All!
if Anyone have this book please share!
Pl. send me also.
Interested too.... please, post the link (Anyone...)
Thanks !!!
I have been looking for this book for many years, please share with us, thanks!
williamsking,
You say you have been looking for this book for many years!. Well possibly that's why you have not found it because it was only published last year around june time and it immediately run out. There was a further release in December. Mind you I don't understand how you could have been looking for something that was not there!!!
Interested too.... please, post the link (Anyone...)
Thanks !!!
HII TO ALL ...
well its very helpful if any can upload the peng book ,,,
Thanks to all
Hi, I also want this Book. Please upload the same..
Thanks in Advance
Paj
Any lead on this book please?....
PAJ...
me too in need of "Pipe Stress Engineering by Liang-Chuan Peng "..anybody can help us?
Thanks,
Raji
HI All,
Please help us...This book is most urgent since so many forum mates are looking for the same!!!
We all are very thankful, if anybody can make it.
Thanks,
Raji
Pipe Stress Engineering
Order #: 802854
ISBN #: 9780791802854
Published: 2009
Product Type: Print-Book
No. of pages: 500
By Liang-Chuan Peng and Tsen-Loong Peng
PREFACE
NOMENCLATURE
1. Introduction
1.1. The Scope of Pipe Stress Analysis; 1.2. Piping Components and Connecting Equipment; 1.3. Modes of Failure; 1.4. Piping Codes; 1.5. Industry Practice; 1.6. Design Specification; 1.7. Plant Walk-down.
2. Strength of Materials Basics
2.1. Tensile Strength; 2.2. Elastic Relationship of Stress and Strain; 2.3. Static Equilibrium; 2.4. Stresses due to Moments; 2.5. Stresses in Pipes; 2.6. Evaluation of Multi-Dimensional Stresses; 2.7. Basic Beam Formulas; 2.8. Analysis of Piping Assembly.
3. Thermal Expansion and Piping Flexibility
3.1. Thermal Expansion Force and Stress; 3.2. Methods of Providing Flexibility; 3.3. Self-Limiting Stress; 3.4. Stress Intensification and Flexibility Factors; 3.5. Allowable Thermal Expansion Stress Range; 3.6. Cold Spring; 3.7. Pressure Effects on Piping Flexibility; 3.8. General Procedure of Piping Flexibility Analysis; 3.9. Problems with Too Much Flexibility; 3.10. Field Proven Systems.
4. Code Stress Requirements
4.1. “Design” Chapter of the Piping Codes; 4.2. Loadings to be Considered; 4.3. Basic Allowable Stresses; 4.4. Pressure Design; 4.5. Stresses of Piping Components; 4.6. Class 1 Nuclear Piping.
5. Discontinuity Stresses
5.1. Differential Equation of the Beam Deflection Curve; 5.2. The Infinite Beam on Elastic Foundation with Concentrated Load; 5.3. Semi-Infinite Beam on Elastic Foundation; 5.4. Application of Beam on Elastic Foundation to Cylindrical Shells; 5.5. Effective Widths; 5.6. Choking Model; 5.7. Stresses at Junctions Between Dissimilar Materials ; 5.8. Vessel Shell Rotation.
6. Pipe Supports and Restraints
6.1. Device Terminology and Basic Functions; 6.2. Support Spacing; 6.3. Analysis of Piping Systems Resting on Supports; 6.4. Variable Spring and Constant Effort Supports; 6.5. Support of Long Risers; 6.6. Significance of Support Friction; 6.7. Support of Large Pipes; 6.8. Pipe Stresses at Integral Support Attachments; 6.9. Treatment of Support Stiffness and Displacement.
7. Flexible Connections
7.1. Basic Flexible Joint Elements and Analytical Tools; 7.2. Using Catalog Data; 7.3. Applications of Bellow Expansion Joints; 7.4. Slip Joints; 7.5. Flexible Hoses; 7.6. Examples of Improper Installation of Expansion Joints.
8. Interface with Stationary Equipment
8.1. Flange Leakage Concern; 8.2. Sensitive Valves; 8.3. Pressure Vessel Connections; 8.4. Power Boiler and Process Heater Connections; 8.5. Air-Cooled Heat Exchanger Connections; 8.6. Low-Type Tank Connections.
9. Interface with Rotating Equipment
9.1. Brief background of Allowable Piping Load on Rotating Equipment; 9.2. Evaluation of Piping Load on Rotating Equipment ; 9.3. Steam Power Turbine; 9.4. Mechanical Drive Steam Turbines; 9.5. Centrifugal Pumps; 9.6. Centrifugal Compressors; 9.7. Reciprocating Compressors and Pumps; 9.8. Problems with Some Techniques Used in Reducing Piping Loads; 9.9. Example Procedure for Designing Rotating Equipment Piping.
10. Transportation Pipeline and Buried Piping
10.1. Governing Codes and General Design Requirements; 10.2. Behaviors of Long Pipeline; 10.3. Pipeline Bends; 10.4. Basic Elements of Soil Mechanics; 10.5. Example Calculations of Basic Pipeline Behaviors ; 10.6. Simulation of Soil Resistance; 10.7. Behaviors of Large Bends; 10.8. Construction of Analytical Model; 10.9. Anchor and Drag Anchor.
11. Special Thermal Problems
11.1. Thermal Bowing; 11.2. Refractory Lined Pipe; 11.3. Un-insulated Flange Connections; 11.4. Unmatched Small Branch Connections; 11.5. Socket-welded Connections.
12. Dynamic Analysis – Part 1, SDOF Systems and Basics
12.1. Impact and Dynamic Load Factor; 12.2. Single Degree of Freedom (SDOF) Structures; 12.3. Damping; 12.4. Sonic Velocity vs. Flow Velocity; 12.5. Shaking Forces due to Fluid Flow; 12.6. Safety Valve Relieving Forces; 12.7. Steam Turbine Trip Load.
13. Dynamic Analysis – Part 2, MDOF Systems and Applications
13.1. Lumped-Mass Multi-Degree of Freedom (MDOF) Systems; 13.2. Piping Subject to Ground Motion; 13.3. Account for Uncertainties; 13.4. Steady State Vibration and Harmonic Analysis; 13.5. Time History Analysis.
APPENDIX A Standard Nominal Pipe Wall Thickness; APPENDIX B, Dimension of Butt-Welding Fittings; APPENDIX C, Thermal Expansion Rate of Piping Materials; APPENDIX D, Modulus of Elasticity of Piping Materials; APPENDIX E, Valve and Flange Data; APPENDIX F, ASME B31.1 Allowable Stress.
INDEX
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