Texture and Anisotropy: Preferred Orientations in Polycrystals and their Effect on Materials Properties
This book provides valuable information for all scientists and engineers interested in materials properties. Coverage discusses the measurement and analysis of textures, the prediction of polycrystal properties from measured textures and known single crystal properties, and the prediction of the development of texture and the ensuing anisotropic properties during elastic and plastic deformation. It also gives an overview of observed textures in metals, ceramics and rocks. There is a balance between theoretical concepts and experimental techniques. The book addresses several issues. Part I provides tools and describes methods to obtain quantitative data on textures of polycrystals. It should be of interest to experimentalists. Part II emphasizes modeling of deformation and incorporates theoretical concepts of mechanics. Part III illustrates successful applications in engineering and earth sciences.
1100954778
Texture and Anisotropy: Preferred Orientations in Polycrystals and their Effect on Materials Properties
This book provides valuable information for all scientists and engineers interested in materials properties. Coverage discusses the measurement and analysis of textures, the prediction of polycrystal properties from measured textures and known single crystal properties, and the prediction of the development of texture and the ensuing anisotropic properties during elastic and plastic deformation. It also gives an overview of observed textures in metals, ceramics and rocks. There is a balance between theoretical concepts and experimental techniques. The book addresses several issues. Part I provides tools and describes methods to obtain quantitative data on textures of polycrystals. It should be of interest to experimentalists. Part II emphasizes modeling of deformation and incorporates theoretical concepts of mechanics. Part III illustrates successful applications in engineering and earth sciences.
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Texture and Anisotropy: Preferred Orientations in Polycrystals and their Effect on Materials Properties

Texture and Anisotropy: Preferred Orientations in Polycrystals and their Effect on Materials Properties

Texture and Anisotropy: Preferred Orientations in Polycrystals and their Effect on Materials Properties

Texture and Anisotropy: Preferred Orientations in Polycrystals and their Effect on Materials Properties

Overview

This book provides valuable information for all scientists and engineers interested in materials properties. Coverage discusses the measurement and analysis of textures, the prediction of polycrystal properties from measured textures and known single crystal properties, and the prediction of the development of texture and the ensuing anisotropic properties during elastic and plastic deformation. It also gives an overview of observed textures in metals, ceramics and rocks. There is a balance between theoretical concepts and experimental techniques. The book addresses several issues. Part I provides tools and describes methods to obtain quantitative data on textures of polycrystals. It should be of interest to experimentalists. Part II emphasizes modeling of deformation and incorporates theoretical concepts of mechanics. Part III illustrates successful applications in engineering and earth sciences.

Product Details

ISBN-13: 9780521794206
Publisher: Cambridge University Press
Publication date: 08/15/2000
Edition description: New Edition
Pages: 692
Product dimensions: 7.44(w) x 9.69(h) x 1.38(d)

Table of Contents

Introduction H. Mecking; Part I. Description of Textures and Anisotropies: 1. Anisotropy and symmetry U. F. Kocks; 2. The representation of orientations and textures U. F. Kocks; 3. Determination of the orientation distribution from pole figure data J. S. Kallend; 4. Pole figure measurements with diffraction techniques H.-R. Wenk; 5. Typical textures in metals A. D. Rollett and S. I. Wright; 6. Typical textures in geological materials and ceramics H.-R. Wenk; Part II. Anisotropic Mechanical Properties in Textured Polycrystals: 7. Tensor properties of textured polycrystals C. N. Tomé; 8. Kinematics and kinetics of plasticity U. F. Kocks; 9. Simulation of deformation texture development for cubic metals U. F. Kocks; 10. Effects of texture on plasticity M. G. Stout and U. F. Kocks; 11. Self consistent modeling of heterogeneous plasticity C. N. Tomé and G. R. Canova; 12. Finite element modeling of heterogeneous plasticity P. R. Dawson and A. J. Beaudoin, Jr.; Part III. Some Applications: 13. Finite element simulations of metal forming P. R. Dawson and A. J. Beaudoin, Jr.; 14. Plasticity modeling in minerals and rocks H.-R. Wenk; Appendix: the elastic inclusion problem C. N. Tomé.
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