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Second edition of successful materials science text for final year undergraduate and graduate students.
List of contents
Preface; 1. Introduction and overview; Part I. Cyclic Deformation and Fatigue Crack Initiation: 2. Cyclic deformation in ductile single crystals; 3. Cyclic deformation in polycrystalline ductile solids; 4. Fatigue crack initiation in ductile solids; 5. Cyclic deformation and crack initiation in brittle solids; 6. Cyclic deformation and crack initiation in noncrystalline solids; Part II. Total-Life Approaches: 7. Stress-life approach; 8. Strain-life approach; Part III. Damage-Tolerant Approach: 9. Fracture mechanics and its implications for fatigue; 10. Fatigue crack growth in ductile solids; 11. Fatigue crack growth in brittle solids; 12. Fatigue crack growth in noncrystalline solids; Part IV. Advanced Topics: 13. Contact fatigue: sliding, rolling and fretting; 14. Retardation and transients in fatigue crack growth; 15. Small fatigue cracks; 16. Environmental interactions: corrosion-fatigue and creep-fatigue; Appendix; References; Indexes.
Summary
Fatigue failures occur in a broad range of engineering applications. This book provides the first comprehensive and integrated account of the science of fatigue in metals, non-metals and composites. The book includes mechanics, micromechanisms, example problems, practice problems and industrial case studies of fatigue deformation and failures.
