| Description |
xiii, 463 pages : illustrations ; 24 cm |
| Contents |
1. Unified Cyclic Viscoplastic Constitutive Equations: Development, Capabilities, and Thermodynamic Framework / J. I. Chaboche -- 2. Dislocation-Density-Related Constitutive Modeling / Yuri Estrin -- 3. Constitutive Laws for High-Temperature Creep and Creep Fracture / R. W. Evans and B. Wilshire -- 4. Improvements in the MATMOD Equations for Modeling Solute Effects and Yield-Surface Distortion / Gregory A. Henshall, Donald E. Helling and Alan K. Miller -- 5. The Constitutive Law of Deformation Kinetics / A. S. Krausz and K. Krausz -- 6. A Small-Strain Viscoplasticity Theory Based on Overstress / Erhard Krempl -- 7. Anisotropic and Inhomogeneous Plastic Deformation of Polycrystalline Solids / J. Ning and E. C. Aifantis -- 8. Modeling the Role of Dislocation Substructure during Class M and Exponential Creep / S. V. Raj, I. S. Iskovitz and A. D. Freed -- 9. Comments and Summary / K. Krausz and A. S. Krausz |
| Summary |
The competitive environments of the high-technology industries demand soundly based economical decisions in the design of manufacturing processes and product performance and reliability. Increasing demands are made on the performance of products, while cost reduction remains a critical issue. The development of the unified constitutive laws of plastic deformation helps manufacturers and developers to maintain and expand quality while cutting down production costs. This book is a summary of the current knowledge of the constitutive laws of plastic deformation. Each chapter is written by a leading expert in the field and will be of particular interest to those involved in the development, design, and operational aspects of forming and shaping manufacturing processes. The book will also be useful to researchers and engineers dealing with the determination and control of the fracture lifetime of components subjected to plastic deformation |
| Bibliography |
Includes bibliographical references and index |
| Subject |
Deformations (Mechanics) -- Mathematical models.
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Plasticity -- Mathematical models.
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Dislocations in crystals -- Mathematical models.
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| Author |
Krausz, A. S.
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Krausz, K.
|
| LC no. |
96002097 |
| ISBN |
0124259707 |
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