Unified Constitutive Laws of Plastic Deformation
- 1st Edition - May 23, 1996
- Latest edition
- Editors: A. S. Krausz, K. Krausz
- Language: English
High-technology industries using plastic deformation demand soundly-based economical decisions in manufacturing design and product testing, and the unified constitutive laws of… Read more
World Book Day celebration
Where learning shapes lives
Up to 25% off trusted resources that support research, study, and discovery.
Description
Description
High-technology industries using plastic deformation demand soundly-based economical decisions in manufacturing design and product testing, and the unified constitutive laws of plastic deformation give researchers aguideline to use in making these decisions. This book provides extensive guidance in low cost manufacturing without the loss of product quality. Each highly detailed chapter of Unified Constitutive Laws of Plastic Deformation focuses on a distinct set of defining equations. Topics covered include anisotropic and viscoplastic flow, and the overall kinetics and thermodynamics of deformation. This important book deals with a prime topic in materials science and engineering, and will be of great use toboth researchers and graduate students.
Key features
Key features
- Describes the theory and applications of the constitutive law of plastic deformation for materials testing
- Examines the constitutive law of plastic deformation as it applies to process and product design
- Includes a program on disk for the determination and development of the constitutive law of plastic deformation
- Considers economical design and testing methods
Readership
Readership
Materials researchers involved in processing, manufacturing, and design studies; test engineers; university, institutional, and industrial libraries; and graduate students in materials science, mechanical, and industrial engineering, especially in materials, manufacturing, and design courses.
Table of contents
Table of contents
J.L. Chaboche, Unified Cyclic Viscoplastic Constitutive Equations: Development, Capabilities, and Thermodynamic Framework. Y. Estrin, Dislocation-Density–Related Constitutive Modeling. R.W. Evans and B. Wilshire, Constitutive Laws for High-Temperature Creep and Creep Fracture. G.A. Henshall, D.E. Helling, and A.K. Miller, Improvements in the MATMOD Equations for Modeling Solute Effects and Yield-Surface Distortions. A.S. Krausz and K. Krausz,The Constitutive Law of Deformation Kinetics. E. Krempl, A Small-Strain Viscoplasticity Theory Based on Overstress. J. Ning and E.C. Aifantis, Anisotropic and Inhomogenous Plastic Deformation of Polycrystalline Solids. S.V. Raj, I.S. Iskowitz, and A.D. Freed, Modeling the Role of Dislocation Substructure During Class M and Exponential Creep. K. Krausz and A.S. Krausz, Comments and Summary. Subject Index.
Product details
Product details
- Edition: 1
- Latest edition
- Published: May 23, 1996
- Language: English
About the editors
About the editors
AK
A. S. Krausz
Affiliations and expertise
University of OttawaKK
K. Krausz
Affiliations and expertise
University of OttawaView book on ScienceDirect
View book on ScienceDirect
Read Unified Constitutive Laws of Plastic Deformation on ScienceDirect