Fundamentals of Engineering Plasticity
$56.99 USD
- Author: William F. Hosford, University of Michigan, Ann Arbor
- Date Published: May 2013
- availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.
- format: Adobe eBook Reader
- isbn: 9781107353152
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William Hosford's book is ideal for those involved in designing sheet metal forming processes. Knowledge of plasticity is essential for the computer simulation of metal forming processes and understanding the advances in plasticity theory is key to formulating sound analyses. The author makes the subject simple by avoiding notations used by specialists in mechanics. R. Hill's authoritative book, Mathematical Theory of Plasticity (1950), presented a comprehensive treatment of continuum plasticity theory up to that time; much of the treatment in this book covers the same ground, but focuses on more practical topics. Hosford has included recent developments in continuum theory, including a newer treatment of anisotropy that has resulted from calculations of yielding based on crystallography, analysis of the role of defects, and forming limit diagrams. A much greater emphasis is placed on deformation mechanisms and the book also includes chapters on slip and dislocation theory and twinning.
Read more- Practical focus on the aspects of plasticity necessary to design metal forming processes
- Simplified notation designed for process designers
- Modern authoritative treatment
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×Product details
- Date Published: May 2013
- format: Adobe eBook Reader
- isbn: 9781107353152
- contains: 230 b/w illus.
- availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.
Table of Contents
1. An overview of the history of plasticity theory
2. Yielding
3. Stress and strain
4. Isotropic yield criteria
5. Bounding theorems and work principles
6. Slip-line field theory
7. Anisotropic plasticity
8. Slip and dislocations
9. Taylor and Bishop and Hill models
10. Pencil glide calculations of yield loci
11. Mechanical twinning and Martensitic shear
12. Effects of strain hardening and strain-rate dependence
13. Defect analysis
14. Effects of pressure and sign of stress state
15. Lower bound analysis
16. Plasticity tests.
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