Mechanical Behavior of Materials Deformation and Design
Auteurs : Mishra Rajiv S., Charit Indrajit, Haridas Ravi Sankar
2. Framework 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 Materials
5. Simple Mechanical Tests and Complexities
6. Elastic Response of Materials: Stiffness Limiting Design
7. Basic Dislocation Fundamentals for Plastic Deformation
8. Yielding and Work Hardening: Strength Limiting Design
9. Toughness of Materials: Toughness Limiting Design
10. Fatigue Behavior of Materials: Fatigue Limiting Design
11. High Temperature Deformation of Materials: Creep Limiting Design
Dr. Indrajit Charit is an associate professor at the University of Idaho. He has authored/co-authored 40 journal papers and 32 proceeding papers, and made several conference presentations. He teaches mechanical behavior of materials, physical metallurgy and nuclear materials related courses. He is a member of TMS, ASM International and ANS. He is a licensed professional engineer in the state of Idaho.
Ravi Sankar Haridas is a post-doctoral research associate in the Department of Materials Science and Engineering at the University of North Texas. His research interestes include experimental solid mechanics, friction stir welding/processing, metal additive manufacturing, solid state processing, high strain rate deformation, impact mitigation, microstructure-property correlation, and high entropy alloys.
- Relates microstructural distribution in engineering materials to mechanical behavior and failure
- Discusses the deviation of engineering microstructure from ideal microstructure
- Contains examples of mechanical properties that are brought together under the basic microstructural framework
- Provides aspects of design-led and systems approaches to materials that are integrated in one book
- Includes an online solutions manual, image bank, and lecture slides for instructors
Date de parution : 10-2024
Ouvrage de 480 p.
19x23.4 cm
À paraître
Thèmes de Mechanical Behavior of Materials :
Mots-clés :
microstructure; hardness; creep; fatigue; fracture; plasticity; toughness; engineering design; dislocation; strengthening mechanisms; mechanical properties; modulus; ductility; multi-axial stress; elasticity; shear stress; plastic deformation; grain boundaries; tensile strength; crack propagation