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Preferred orientation in deformed metals and rocks : an introduction to modern texture analysis /
This volume provides an introduction to the texture analysis of deformed materials and explores methods of determining and interpreting the preferred orientation of crystals in deformed polycrystalline aggregates.**The book reviews: 1) the techniques, procedures, and theoretical basis for the accumu...
| Clasificación: | Libro Electrónico |
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| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Orlando :
Academic Press,
1985.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Preferred Orientation in Deformed Metals and Rocks: An Introduction to Modern Texture Analysis; Copyright Page; Table of Contents; Contributors; Preface; Frequently Used Symbols and Abbreviations; Chapter 1. An Introduction; 1. Introduction; 2. Rocks and Metals; 3. Deformation; 4. Effects of Deformation; 5. Preferred Orientation in Deformed Materials: Texture; 6. A Note on Terminology; Chapter 2. Measurement of Pole Figures; 1. Fabric Diagrams and Pole Figures; 2. Optical Methods; 3. Diffraction Methods; 4. Comparison of Methods; Chapter 3. Symmetry of Pole Figures and Textures.
- 1. Introduction2. Symmetry: Operations, Groups, Elements; 3. Three-Dimensional Point Groups; 4. Homogeneous Polycrystalline Aggregates; 5. Directions in Crystals; 6. Symmetry of Pole Figures; 7. Black-White Symmetry; 8. Application of Black-White Groups to Pole-Figure Symmetry; 9. Practical Symmetry of Pole Figures and Textures; Chapter 4. Representation of Preferred Orientations; 1. Parameters Characterizing a Polycrystalline Structure; 2. The Orientation Distribution Function; 3. Specification of the Crystal Orientation; 4. Definition of Pole Figures.
- 5. The Fundamental Relation of Texture Analysis6. Pole-Figure Inversion Methods; 7. The General Axis Distribution Function; 8. Fiber Textures; 9. Inhomogeneous Textures; 10. Symmetry Elements of the Second Kind; 11. Evaluation of the ODF; Chapter 5. The Harmonic Method; 1. General Formulation of the Method; 2. Additional Useful Relations; 3. The Harmonic Functions; Chapter 6. Vector Method; 1. Introduction; 2. Main Principles; 3. Practical Considerations; 4. Examples of Analysis; 5. Conclusions and Outlook; Chapter 7. ODF Reproduction with Conditional Ghost Correction; 1. Introduction.
- 2. Theory3. Examples; 4. Conclusions; Chapter 8. Dislocations and Microstructures; 1. Introduction; 2. Imperfect Crystals; 3. Plastic Deformation; 4. The Yield, Plasticity, and Recovery of Crystalline Solids-Cold work; 5. Recrystallization; 6. Techniques for Studying Dislocations; 7. Examples of Microstructures; Chapter 9. Recrystallization; 1. Introduction; 2. Phenomena and Terminology; 3. The Driving Forces of Recrystallization; 4. Deformed State and Recovery; 5. Nucleation; 6. Grain Boundary Migration; 7. Kinetics of Primary Recrystallization; 8. Grain Growth Phenomena.
- 9. Dynamic RecrystallizationChapter 10. Regimes off Plastic Deformation; 1. Introduction; 2. The Mechanisms of Plastic Deformation; 3. The Constitutive Relations for Plastic Deformation; 4. Factors Influencing the Flow Process; 5. The Construction of Deformation Mechanism Maps; Chapter 11. Development off Textures by Slip and Twinning; 1. Introduction; 2. Methods; 3. Plastic Deformation of Single Crystals; 4. Polycrystals; 5. Computer Simulation of Deformation Textures by the Taylor-Bishop-Hill Theory; 6. Data Required for Taylor Simulations; 7. General Discussion.