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Full Description
Introduction to Materials Science and Engineering: A Design-Led Approach is ideal for a first course in materials for mechanical, civil, biomedical, aerospace and other engineering disciplines. The authors' systematic method includes first analyzing and selecting properties to match materials to design through the use of real-world case studies and then examining the science behind the material properties to better engage students whose jobs will be centered on design or applied industrial research. As with Ashby's other leading texts, the book emphasizes visual communication through material property charts and numerous schematics better illustrate the origins of properties, their manipulation and fundamental limits.
Contents
1.Introduction: materials — history, classification, and properties
2. Materials, processes, and design
3. Material properties and microstructure — overview and atom-scale fundamentals
4. Elastic stiffness and stiffness-limited applications
5. Plasticity, yielding and ductility, and strength-limited applications
6. Fracture, fatigue, and fracture-limited applications
7. Materials and heat: thermal properties
8. Materials at high temperatures: diffusion and creep
9. Surfaces: friction, wear, oxidation, corrosion
10. Functional properties: electrical, magnetic, optical
11. Manufacturing processes and microstructure evolution
12. Materials, environment, and sustainability
Guided Learning Unit 1: Simple ideas of crystallography
Guided Learning Unit 2: Material selection in design
Guided Learning Unit 3: Process selection in design
Guided Learning Unit 4: Phase diagrams and phase Transformations
Appendix A: Material property data
