List of Symbols |
Introduction |
Atomic Structure and Interatomic Bonding |
The Structure of Crystalline Solids |
Imperfections in Solids |
Diffusion |
Mechanical Properties of Metals |
Dislocations and Strengthening Mechanisms |
Failure |
Phase Diagrams |
Phase Transformations in Metals: Development of Microstructure and Alteration of Mechanical Properties |
Thermal Processing of Metal Alloys |
Metals Alloys |
Structures and Properties of Ceramics |
Applications and Processing of Ceramics |
Polymer Structures |
Characteristics, Applications, and Processing of Polymers |
Composites |
Corrosion and Degradation of Materials |
Electrical Properties |
Thermal Properties |
Magnetic Properties |
Optical Properties |
Materials Selection and Design Considerations |
Economic, Environmental, and Societal Issues in Materials Science and Engineering |
The International System of Units (SI / Appendix A: |
Properties of Selected Engineering Materials / Appendix B: |
Costs and Relative Costs for Selected Engineering Materials / Appendix C: |
Mer Structures for Common Polymers / Appendix D: |
Glass Transition and Melting Temperatues for Common Polymeric Materials / Appendix E: |
Glossary |
Answers to Selected Problems |
Index |
Learning Objectives / 1: |
Historical Perspective / 1.1: |
Materials Science and Engineering / 1.2: |
Why Study Materials Science and Engineering? / 1.3: |
Classification of Materials / 1.4: |
Advanced Materials / 1.5: |
Modern Materials' Needs / 1.6: |
References |
Atomic Structure / 2: |
Fundamental Concepts / 2.2: |
Electrons in Atoms / 2.3: |
The Periodic Table / 2.4: |
Atomic Bonding in Solids |
Bonding Forces and Energies / 2.5: |
Primary Interatomic Bonds / 2.6: |
Secondary Bonding or van der Waals Bonding / 2.7: |
Molecules / 2.8: |
Summary |
Important Terms and Concepts |
Questions and Problems |
Crystalstructures / 3: |
Unit Cells / 3.2: |
Metallic Crystal Structures / 3.4: |
Density Computations / 3.5: |
Polymorphism and Allotropy / 3.6: |
Crystal Systems / 3.7: |
Crystallographic Points, Directions, and Planes |
Point Coordinates / 3.8: |
Crystallographic Directions / 3.9: |
Crystallographic Planes / 3.10: |
Linear and Planar Densities / 3.11: |
Close-Packed Crystal Structures / 3.12: |
Crystalline and Noncrystalline Materials |
Single Crystals / 3.13: |
Polycrystalline Materials / 3.14: |
Anisotropy / 3.15: |
X-Ray Diffraction: Determination of Crystal Structures / 3.16: |
Noncrystalline Solids / 3.17: |
Point Defects / 4: |
Vacancies and Self-Interstitials / 4.2: |
Impurities in Solids / 4.3: |
Specification of Composition / 4.4: |
Miscellaneous Imperfections |
Dislocations-Linear Defects / 4.5: |
Interfacial Defects / 4.6: |
Bulk or Volume Defects / 4.7: |
Atomic Vibrations / 4.8: |
Microscopic Examination |
General / 4.9: |
Microscopic Techniques / 4.10: |
Grain Size Determination / 4.11: |
Design Problems |
Diffusion Mechanisms / 5: |
Steady-State Diffusion / 5.3: |
Nonsteady-State Diffusion / 5.4: |
Factors That Influence Diffusion / 5.5: |
Other Diffusion Paths / 5.6: |
Concepts of Stress and Strain / 6: |
Elastic Deformation |
Stress-Strain Behavior / 6.3: |
Anelasticity / 6.4: |
Elastic Properties of Materials / 6.5: |
Plastic Deformation |
Tensile Properties / 6.6: |
True Stress and Strain / 6.7: |
Elastic Recovery after Plastic Deformation / 6.8: |
Compressive, Shear, and Torsio / 6.9: |
List of Symbols |
Introduction |
Atomic Structure and Interatomic Bonding |