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Mechanical behavior of materials deformation and design Mishra, Rajiv S. Indrajit Charit

By: Contributor(s): Publication details: Butterworth-Heinemann 2016.Description: pISBN:
  • 9780128045541
Subject(s): DDC classification:
  • 000
Summary: 1. Introduction to Mechanical Response of Materials 2. Framing of Five Basic Design Approaches for Structural Components 3. Introduction to Systems Approach to Materials 4. A Brief Survey of Microstructural Elements in Engineering Structural Metallic and Non-metallic Materials 5. Simplest Mechanical Tests and Complexities: Hardness Measurement and Tensile Tests Guided Learning Unit 1. Dislocation Theory for Crystalline Materials 6. Elastic Response of Materials: Stiffness Limiting Design 7. Yielding and Work Hardening: Strength Limiting Design Guided Learning Unit 2. Strengthening Mechanisms in the Context of Microstructure of Engineering Metallic Alloys 8. Toughness of Materials: Toughness Limiting Design 9. Fatigue Behavior of Materials: Fatigue Limiting Design 10. High Temperature Deformation of Materials: Creep Limiting Design 11. Intersection of Dislocation Based Plasticity and Mechanics Guided Learning Unit 3. Design and Development of High Performance Engineering Metallic and Non-metallic Materials.
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ON ORDER University of Wollongong in Dubai On Order 000 (Browse shelf(Opens below)) Not for loan T0061664

1. Introduction to Mechanical Response of Materials 2. Framing of Five Basic Design Approaches for Structural Components 3. Introduction to Systems Approach to Materials 4. A Brief Survey of Microstructural Elements in Engineering Structural Metallic and Non-metallic Materials 5. Simplest Mechanical Tests and Complexities: Hardness Measurement and Tensile Tests Guided Learning Unit 1. Dislocation Theory for Crystalline Materials 6. Elastic Response of Materials: Stiffness Limiting Design 7. Yielding and Work Hardening: Strength Limiting Design Guided Learning Unit 2. Strengthening Mechanisms in the Context of Microstructure of Engineering Metallic Alloys 8. Toughness of Materials: Toughness Limiting Design 9. Fatigue Behavior of Materials: Fatigue Limiting Design 10. High Temperature Deformation of Materials: Creep Limiting Design 11. Intersection of Dislocation Based Plasticity and Mechanics Guided Learning Unit 3. Design and Development of High Performance Engineering Metallic and Non-metallic Materials.

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