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Full Description
This book is an updated version of 2001's Theory and Practice of Infrared Technology for Nondestructive Testing. It syncs its thorough treatment of the latest infrared theories and technologies with a complete software package to aid readers in the implementation of their new skills. Case studies are added to each chapter; a new chapter on Laplace quadrupoles is added; the application chapter has been expanded; and the latest algorithms and infrared features are included. Professors and researchers working in the area of infrared technology/thermography will rely on this important resource.
Contents
Introduction 1. A Crystal 2. Language of Crystallography: Real Space 3. Language of Crystallography: Reciprocal Space 4. Reciprocal Space from a Physical Point of View 5. Language of Crystallography: Crystallographic Calculations 6. Language of Crystallography: Stereographic Projection 7. Local Symmetry: Basic Symmetry Elements 8. Local Symmetry: Combinations of Symmetry Elements 9. Local Symmetry: The 32 Point groups 10. Local Symmetry: Simple Crystal Forms 11. Bravais Lattices: General Classification 12. Bravais Lattices: Boundary Situations 13. Bravais Lattices and Inversion Centers 14. Atomic Packing and Coordination Numbers 15. Twinning in Crystals 16. Spatial Symmetry: New Symmetry Elements - Screw Axes and Glide Planes 17. Spatial Symmetry: Space Groups 18. International Tables for Crystallography: Graphical Information on Crystal Symmetry 19. Physical Properties of Crystals from a Symmetry Point of View Vector Properties: Ferroelectricity as an Example Properties Described by Tensors of Second Rank: Dielectric Permittivity as an Example Properties Described by Tensors of Third Rank: Piezoelectric Effect as an Example Properties Described by Tensors of Fourth Rank: Elastic Modulus as an Example
