An introduction to properties, applications, and design
著者
書誌事項
An introduction to properties, applications, and design
(Engineering materials / by Michael F. Ashby and David R. H. Jones, 1)
Butterworth-Heinemann, c2012
4th ed
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注記
Includes bibliographical references (p. 465-466) and index
Some copies have different pagination (Appendix 2 has been added, p. 465-466): 474 p.
内容説明・目次
内容説明
Widely adopted around the world, Engineering Materials 1 is a core materials science and engineering text for third- and fourth-year undergraduate students; it provides a broad introduction to the mechanical and environmental properties of materials used in a wide range of engineering applications. The text is deliberately concise, with each chapter designed to cover the content of one lecture. As in previous editions, chapters are arranged in groups dealing with particular classes of properties, each group covering property definitions, measurement, underlying principles, and materials selection techniques. Every group concludes with a chapter of case studies that demonstrate practical engineering problems involving materials.
Engineering Materials 1, Fourth Edition is perfect as a stand-alone text for a one-semester course in engineering materials or a first text with its companion Engineering Materials 2: An Introduction to Microstructures and Processing, in a two-semester course or sequence.
目次
1. Engineering Materials and Their Properties
2. The Price and Availability of Materials
3. The Elastic Moduli
4. Bonding between Atoms
5. Packing of Atoms in Solids
6. The Physical Basis of Young's Modulus
7. Case Studies in Modulus-Limited Design
8. Yield Strength, Tensile Strength, and Ductility
9. Dislocations and Yielding in Crystals
10. Strengthening Methods and Plasticity of Polycrystals
11. Continuum Aspects of Plastic Flow
12. Case Studies in Yield-Limited Design
13. Fast Fracture and Toughness
14. Micromechanisms of Fast Fracture
15. Probabilistic Fracture of Brittle Materials
16. Case Studies in Fracture
17. Fatigue Failure
18. Fatigue Design
19. Case Studies in Fatigue Failure
20. Creep and Creep Fracture
21. Kinetic Theory of Diffusion
22. Mechanisms of Creep, and Creep-Resistant Materials
23. The Turbine Blade-A Case Study in Creep-Limited Design
24. Oxidation of Materials
25. Case Studies in Dry Oxidation
26. Wet Corrosion of Materials
27. Case Studies in Wet Corrosion
28. Friction and Wear
29. Case Studies in Friction and Wear
30. Final Case Study
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