Strength and Fracture of Engineering Solids
2nd Edition
Published on 17. January 1996
Book
Paperback/Softback
535 pages
978-0-13-856113-0 (ISBN)
Description
For undergraduate or graduate courses in Fracture Mechanics.
Offering a self-contained approach that develops topics from the simple to the complex throughout, this text combines a rigorous exposition of the fundamentals of the strength and toughness of engineering solids with practical applications to engineering problems. It provides extensive data on real materials and features accessible coverage of important new and developing topics not often presented at this level.
Offering a self-contained approach that develops topics from the simple to the complex throughout, this text combines a rigorous exposition of the fundamentals of the strength and toughness of engineering solids with practical applications to engineering problems. It provides extensive data on real materials and features accessible coverage of important new and developing topics not often presented at this level.
More details
Edition
2nd edition
Language
English
Place of publication
United States
Publishing group
Pearson Education (US)
Target group
College/higher education
Dimensions
Height: 238 mm
Width: 183 mm
Thickness: 26 mm
Weight
951 gr
ISBN-13
978-0-13-856113-0 (9780138561130)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Previous edition
Book
09/1994
Longman Higher Education
€25.94
Article exhausted; check different version
Content
1. Engineering Design with Materials, and the International System of Units.
2. Traditional Strength Tests and Mechanical Processing.
3. Classes of Properties of Engineering Materials.
4. Structure of Solids.
5. Crystal Imperfections and Slip.
6. Pure Elements.
7. Single Phases.
8. Phase Diagrams.
9. Multiple Phases.
10. Martensites and Tempered Martensites.
11. Stainless and Heat-Resistant Steels.
12. Rate and Temperature-Dependent Mechanical Properties: Creep and Viscoelasticity.
13. Polymers and Design with Time-Dependent Solids.
14. Fracture.
15. Cast Irons.
16. Ceramics and Glasses.
17. Composites.
18. Fracture by Gradual Crack Growth: Fatigue and Stress-Corrosion Cracking.
19. Failure Analysis.
Appendix 1: Prefixes for Use with SI Units.
Appendix 2: Factors for Conversion to SI Units.
Appendix 3: Plastic Stress-Strain Constants for Metals.
Appendix 4: Approximate Hardness Conversions for Metals.
Appendix 5: Mechanical Property Ranges for Common Engineering Materials at ...~20...EC.
Appendix 6: Properties of Pure Metals at ...~20...EC.
Appendix 7: Compositions of Some Stainless Steels.
Appendix 8: Representative Mechanical Properties of Polymers.
Appendix 9: Typical Values of Quasi-Static Toughness and Yield Stress.
Appendix 10: Typical Compositions and Mechanical Properties of Cast Irons.
Appendix 11: Representative Room-Temperature Mechanical Properties of Ceramics and Glasses.
Appendix 12: Density and Mechanical Properties of Bulk Materials and Filaments.
Appendix 13: Density and Mechanical Properties of Composites.
Appendix 14: Energy Consumption in Manufacture of Various Engineering Solids.
Appendix 15: Some Common Known Stress-Corrosion Cracking (and Hydrogen-Embrittlement) Environment-Material Combinations.
Index.
2. Traditional Strength Tests and Mechanical Processing.
3. Classes of Properties of Engineering Materials.
4. Structure of Solids.
5. Crystal Imperfections and Slip.
6. Pure Elements.
7. Single Phases.
8. Phase Diagrams.
9. Multiple Phases.
10. Martensites and Tempered Martensites.
11. Stainless and Heat-Resistant Steels.
12. Rate and Temperature-Dependent Mechanical Properties: Creep and Viscoelasticity.
13. Polymers and Design with Time-Dependent Solids.
14. Fracture.
15. Cast Irons.
16. Ceramics and Glasses.
17. Composites.
18. Fracture by Gradual Crack Growth: Fatigue and Stress-Corrosion Cracking.
19. Failure Analysis.
Appendix 1: Prefixes for Use with SI Units.
Appendix 2: Factors for Conversion to SI Units.
Appendix 3: Plastic Stress-Strain Constants for Metals.
Appendix 4: Approximate Hardness Conversions for Metals.
Appendix 5: Mechanical Property Ranges for Common Engineering Materials at ...~20...EC.
Appendix 6: Properties of Pure Metals at ...~20...EC.
Appendix 7: Compositions of Some Stainless Steels.
Appendix 8: Representative Mechanical Properties of Polymers.
Appendix 9: Typical Values of Quasi-Static Toughness and Yield Stress.
Appendix 10: Typical Compositions and Mechanical Properties of Cast Irons.
Appendix 11: Representative Room-Temperature Mechanical Properties of Ceramics and Glasses.
Appendix 12: Density and Mechanical Properties of Bulk Materials and Filaments.
Appendix 13: Density and Mechanical Properties of Composites.
Appendix 14: Energy Consumption in Manufacture of Various Engineering Solids.
Appendix 15: Some Common Known Stress-Corrosion Cracking (and Hydrogen-Embrittlement) Environment-Material Combinations.
Index.