Roark's Formulas for Stress & Strain 8th Edition

• Chapter 1. Introduction
• Chapter 2. Stress and Strain: Important Relationships
• Chapter 3. The Behavior of Bodies Under Stress
• Chapter 4. Principles and Analytical Methods
• Chapter 5. Numerical Methods
• Chapter 6. Experimental Methods
• Chapter 7. Tension, Compression, Shear, and Combined Stress
• Chapter 8. Beams; Flexure of Straight Bars
• Chapter 9. Curved Beams
• Chapter 10. Torsion
• Chapter 11. Flat Plates
• Chapter 12. Columns and Other Compression Members
• Chapter 13. Shells of Revolution; Pressure Vessels; Pipes
• Chapter 14. Bodies under Direct Bearing and Shear Stress
• Chapter 15. Elastic Stability
• Chapter 16. Dynamic and Temperature Stresses
• Chapter 17. Stress Concentration
• Chapter 18. Fatigue and Fracture
• Chapter 19. Stresses in Fasteners and Joints
• Chapter 20. Composite Materials
• Chapter 21. Solid Biomechanics
• Appendix A. Properties of a Plane Area
• Appendix B. Mathematical Formulas and Matrices
• Appendix C. Glossary
• Index

Fully revised throughout, Roark's Formulas for Stress and Strain, Eighth Edition, provides accurate and thorough tabulated formulations that can be applied to the stress analysis of a comprehensive range of structural components. All equations and diagrams of structural properties are presented in an easy-to-use, thumb, through format.

This extensively updated edition contains new chapters on fatigue and fracture mechanics, stresses in fasteners and joints, composite materials, and biomechanics. Several chapters have been expanded and new topics have been added. Each chapter now concludes with a summary of tables and formulas for ease of reference. This is the definitive resource for designers, engineers, and analysts who need to calculate stress and strain management.
 

This book covers:

• Behavior of bodies under stress.
• Principles and analytical methods.
• Numerical and experimental methods.
• Tension, compression, shear, and combined stress.
• Beams; flexure of straight bars.
• Bending of curved beams.
• Torsion.
• Flat plates.
• Columns and other compression members.
• Shells of revolution; pressure vessels; pipes.
• Bodies in contact undergoing direct bearing and shear stress.
• Elastic stability.
• Dynamic and temperature stresses.
• Stress concentration factors.
• Fatigue and fracture mechanics.
• Stresses in fasteners and joints.
• Composite materials.
• Biomechanics.

About the Authors

• Warren Young is professor emeritus of mechanical engineering at the University of Wisconsin, Madison, where he was on the faculty for more than 40 years.
• Richard G. Budynas is professor emeritus of mechanical engineering at Rochester Institute of Technology. He is the author of Advanced Strength and Applied Stress Analysis, Second Edition (McGraw-Hill, 1998), and coauthor of Shigley’s Mechanical Engineering Design, Ninth Edition (McGraw-Hill, 2010).
• Ali M. Sadegh is professor of mechanical engineering and the founder and director of the Center for Advanced Engineering Design and Development at the City College of the City University of New York. He is a coauthor of Marks’ Standard Handbook for Mechanical Engineers, 11th Edition (McGraw-Hill, 2007).

Book Details

• Hardcover: 1072 pages
• Publisher: McGraw-Hill Professional; 8 edition (December 19, 2011)
• Language: English
• ISBN-10: 0071742476
• ISBN-13: 978-0071742474

List Price: $125.00 

 

Tags: McGraw-Hill, Mechanical Engineering