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Full Description
Reflecting emerging methods and the evolution of the field, Introduction to Texture Analysis: Macrotexture, Microtexture, and Orientation Mapping keeps mathematics to a minimum in covering both traditional macrotexture analysis and more advanced electron-microscopy-based microtexture analysis. The authors integrate the two techniques and address the subsequent need for a more detailed explanation of philosophy, practice, and analysis associated with texture analysis. The book illustrates approaches to orientation measurement and interpretation and elucidates the fundamental principles on which measurements are based. Thoroughly updated, this Third Edition of a best-seller is a rare introductory-level guide to texture analysis.
Discusses terminology associated with orientations, texture, and their representation, as well as the diffraction of radiation, a phenomenon that is the basis for almost all texture analysis
Covers data acquisition, as well as representation and evaluation related to the well-established methods of macrotexture analysis
Updated to include experimental details of the latest transmission or scanning electron microscope-based techniques for microstructure analysis, including electron backscatter diffraction (EBSD)
Describes how microtexture data are evaluated and represented and emphasizes the advances in orientation microscopy and mapping, and advanced issues concerning crystallographic aspects of interfaces and connectivity
Offers new and innovative grain boundary descriptions and examples
This book is an ideal tool to help readers in the materials sciences develop a working understanding of the practice and applications of texture.
Contents
Part I: Fundamental Issues. 1. Introduction. 2. Descriptors of Orientation. 3. Application of Diffraction to Texture Analysis. Part II: Macrotexture Analysis. 4. Macrotexture Measurements. 5. Evaluation and Representation of Macrotexture Data. Part III: Microtexture Analysis. 6. Diffraction Techniques in TEM and SEM. 7. Procedures for Orientation Determination from Electron Diffraction Patterns. 8. Practice of Orientation Measurement and Orientation Microscopy. 9. Orientation Microscopy and Orientation Mapping. 10. Evaluation and Representation of Microtexture Data. 11. Crystallographic Analysis of Interfaces, Surfaces, and Connectivity. 12. Orientation Relationships between Phases and Texture Formation during Phase Transformations. 13. Synchrotron Radiation, Nondiffraction Techniques, and Comparisons between Methods. Appendices.
