Engineering Design with Materials, and the International System of Units / 1: |
Traditional Strength Tests and Mechanical Processing / 2: |
Classes of Properties of Engineering Materials / 3: |
Structure of Solids / 4: |
Crystal Imperfections and Slip / 5: |
Pure Elements / 6: |
Single Phases / 7: |
Phase Diagrams / 8: |
Multiple Phases / 9: |
Martensites and Tempered Martensites / 10: |
Stainless and Heat-Resistant Steels / 11: |
Rate and Temperature-Dependent Mechanical Properties: Creep and Viscoelasticity / 12: |
Polymers and Design with Time-Dependent Solids / 13: |
Fracture / 14: |
Cast Irons / 15: |
Ceramics and Glasses / 16: |
Composites / 17: |
Fracture by Gradual Crack Growth: Fatigue and Stress-Corrosion Cracking / 18: |
Failure Analysis / 19: |
Prefixes for Use with SI Units / Appendix 1: |
Factors for Conversion to SI Units / Appendix 2: |
Plastic Stress-Strain Constants for Metals / Appendix 3: |
Approximate Hardness Conversions for Metals / Appendix 4: |
Mechanical Property Ranges for Common Engineering Materials at ... / Appendix 5: |
Engineering Design with Materials, and the International System of Units / 1: |
Traditional Strength Tests and Mechanical Processing / 2: |
Classes of Properties of Engineering Materials / 3: |
Structure of Solids / 4: |
Crystal Imperfections and Slip / 5: |
Pure Elements / 6: |