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Deformation and Fracture Mechanics of Engineering Materials
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TLDR
In this article, the authors present an overview of fracture mechanics of engineering materials and examine the role of the transition temperature approach to fracture control in the engineering failure process, as well as various aspects of fracture toughness.Abstract:
DEFORMATION OF ENGINEERING MATERIALS. Tensile Response of Materials. Elements of Dislocation Theory. Slip and Twinning in Crystalline Solids. Strengthening Mechanisms in Metals. High-Temperature Deformation Response of Crystalline Solids. Deformation Response of Engineering Plastics. FRACTURE MECHANICS OF ENGINEERING MATERIALS. Fracture: An Overview. Elements of Fracture Mechanics. Transition Temperature Approach to Fracture Control. Microstructural Aspects of Fracture Toughness. Environment-Assisted Cracking. Cyclic Stress and Strain Fatigue. Fatigue Crack Propagation. Analyses of Engineering Failures. Appendices. Indexes.read more
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