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Modern physical metallurgy /
Modern Physical Metallurgy, Third Edition discusses the fundamental principles of physical metallurgy and demonstrates how the application of the principles leads to a clearer understanding of many technologically important metallurgical phenomena. This book covers the substantial developments in th...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London :
Butterworths,
1970.
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| Edición: | Third edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Modern Physical Metallurgy; Copyright Page; PREFACE TO FIRST EDITION; PREFACE TO THIRD EDITION; Table of Contents; CHAPTER 1. THE STRUCTURE OF ATOMS AND CRYSTALS; 1.1. Metallic Characteristics; 1.2. The Atom; 1.3. The Nomenclature of the Electronic States in an Atom; 1.4. The Periodic Table; 1.5. Chemical Behaviour and the Metallic Bond; 1.6. Arrangement of Atoms in Metals; 1.7. Electrons in Metal Crystals; 1.8. Metals and Insulators; 1.9. Real Crystals and Imperfections; APPENDIX. THE ELEMENTS OF CRYSTALLOGRAPHY; 1.10. Notation for Denoting Crystal Planes and Directions.
- 1.11. The Stereographic ProjectionCHAPTER 2. EXPERIMENTAL APPROACH TO METALLURGY; 2.1. Solidification of Pure Metals; 2.2. Metallography; 2.3. The Equilibrium Diagram; 2.4. X-ray, Neutron and Electron Diffraction; 2.5. Mechanical Properties; 2.6. Physical Properties; CHAPTER 3. THERMODYNAMICS OF CRYSTALS; 3.1. Introduction; 3.2. The Effect of Temperature on Metal Crystals; 3.3. Specific Heat Curve and Transformations; 3.4. Heat Content, Entropy and Free Energy; 3.5. The Statistical Nature of Entropy; 3.6. Free Energy of Transformation.
- 3.7. The Variation of Free Energy with Temperature, and Polymorphism3.8. Thermodynamics of Lattice Defects; 3.9. The Rate of Reaction; 3.10. The Mechanism of Phase Changes; 3.11. The Equilibrium Diagram; 3.12. Diffusion; 3.13. Anelasticity and Internal Friction; CHAPTER 4. THE STRUCTURE OF ALLOYS; 4.1. Introduction; 4.2. Primary Substitutional Solid Solutions; 4.3. The Form of the Liquidus and Solidus Curves; 4.4. The Primary Solid Solubility Boundary; 4.5. Interstitial Solid Solutions; 4.6. Intermediate Phases; 4.7. Order-Disorder Phenomena; 4.8. The Magnetic Properties of Metals and Alloys.
- 4.9. The Electronic Structure of the Transition Metals4.10. Semiconductors; 4.11. Superconductivity; CHAPTER 5. DISLOCATIONS AND PLASTICITY OF CRYSTALS; 5.1. Elastic and Plastic Deformation; 5.2. Dislocations in Crystals; 5.3. Dislocations in Close Packed Crystals; 5.4. Dislocations in Hexagonal Structures; 5.5. Dislocations in B.C.C. Lattices; 5.6. Experimental Evidence of Dislocations; 5.7. Electron Diffraction and Diffraction Contrast from Crystal Defects; 5.8. Arrangements of Dislocations in Crystals; 5.9. Origin of Dislocations; CHAPTER 6. DEFORMATION OF METALS AND ALLOYS.
- 6.1. Dislocation Mobility6.2. Multiplication of Dislocations; 6.3. Influence of Grain Boundaries on the Plastic Properties of Metals; 6.4. Mechanical Twinning; 6.5. Work Hardening; 6.6. Preferred Orientation; 6.7. Texture Hardening; 6.8. Macroscopic Plasticity; CHAPTER 7. DISLOCATIONS, SOLUTE ATOMS AND VACANCIES; 7.1. Solute Atoms and Dislocations; 7.2. Point Defects and Dislocations; 7.3. Annealing; CHAPTER 8. PRECIPITATION HARDENING AND THE EUTECTOID TRANSFORMATION; 8.1. Precipitation Hardening; 8.2. The Decomposition of Austenite; CHAPTER 9. FRACTURE, CREEP AND FATIGUE; 9.1. Fracture.