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Engineering fundamentals and environmental effects /
Engineering Fundamentals and Environmental Effects.
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Academic Press,
1971.
|
| Colección: | Fracture : an advanced treatise ;
volume III. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Engineering Fundamentals and Environmental Effects; Copyright Page; LIST OF CONTRIBUTORS; PREFACE; Table of Contents; Chapter 1. Fundamental Aspects of Crack Growth and Fracture; I. Introduction; II. Linear Crack-Stress Field Analysis; III. Placticity Analysis Concepts for Cracks; IV. Slow-Stable Crack Growth; V. Crack Propagation and Fracture Toughness; VI. Summary and Recommended Research; Symbols; References; Chapter 2. Plasticity Aspects of Fracture; I. Introduction; II. Fundamental Equations of the Statics of Solids; III. Criteria for Fracture; IV. Fully Plastic Fracture.
- v. Elastic-Plastic FractureVI. Viscous and Viscoelastic Fracture; VII. Recommended Research; VIII. Summary; Symbols; References; Chapter 3. Notch Analysis of Fracture; I. Introduction; II. Elasticity Theory of Stress Concentrations; III. Notch Analysis of Brittle Fracture; IV. Plasticity Corrections; V. Notch Analysis for Solids Showing a Nonlinear Stress-Strain Relationship; VI. Brittle Fracture of Inhomogeneous Materials; VII. Fatigue Crack Propagation; VIII. Recommended Research; IX. Summary; Symbols; References; Chapter 4. Multiaxial Stress and Fracture; I. Introduction.
- II. Multiaxial Stress and StrainIII. Flow and Fracture; IV. Theories of Strength; V. Stress-Strain Relationships; VI. Phenomenological Aspects of Fracture; VII. Current Design Practice; VIII. Recommended Research; IX. Summary; Symbols; References; Chapter 5. Photoelastic Studies of Fracture; I. Introduction; II. Photoelasticity; III. Application of Two-Dimensional Static Photoelasticityto Fracture Analysis; IV. Application of Three-Dimensional Photoelasticity to Fracture Analysis; V. Recommended Research; VI. Summary; Chapter 6. Nondestructive Testing; I. Introduction.
- II. Methods of Nondestructive TestingIII. What Is a Flaw?; IV. Challenges to Nondestructive Testing and Recommended Research; V. Summary and Conclusion; Symbols; References; Chapter 7. Fatigue of High-Strength Materials; I. Introduction; II. Effects of Cyclic Straining; III. Microscopic Aspects of Fatigue-Crack Nucleation; IV. Fatigue-Crack Propagation; V. Energy Approach to Fatigue; VI. Recommended Research; VII. Summary and Conclusions; Symbols; References; Chapter 8. Fracture under Conditions of Hot Creep Rupture; I. Introduction; II. Structure of the Grain Boundary.
- III. The High-Temperature RegionIV. Creep Deformation and Recovery; V. Void Formation and Intercrystalline Failure in Creep; VI. Recommended Research; VII. Summary; Symbols; References; Chapter 9. Fracture Mechanisms and Radiation Effects; I. Introduction; II. Irradiation Damage Mechanisms; III. Fundamental Considerations; IV. Metallurgical Consideracions; V. Recommended Research; VI. Summary; Appendix: Influence of Flow Stress on Plastic Energy Absorption Rate; Symbols; References; Chapter 10. Adsorption-Induced Brittle Fracture in Liquid-Metal Environments; I. Introduction.