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The metal fatigue book takes the form of a specialist work. This book contains two Objectives; one is to present a new way of understanding through the phenomena of metal fatigue. The other one is to set out a practical method for engineers and also for researchers working on fatigue design and structural integrity to use when assessing the influence of small defects and nonmetallic inclusions on fatigue strength. A part of the book includes a concise explanation of metal fatigue topics presented.
1. Mechanism of fatigue in the absence of Defects and inclusions
2. Stress Concentration
3. Notch Effect and Size Effect
4. Effect of Size and Geometry of Small on the Fatigue Limit
5. Effect of Hardness Hv on Fatigue limits of Materials Containing Defects, and Fatigue limit Prediction Equations
6. Effects of Nonmetallic Inclusions on Fatigue Strength
7. Bearing Steels
8. Spring Steels
9. Tool Steels: Effect of Carbides
10. Effects of Shape and Size of Artificially Introduced Alumina Particles on 1.5Ni-Cr-Mo (En24) Steel
11. Nodular Cast Iron
12. Influence of Si-Phase on Fatigue Properties of Aluminum Alloys
13. Ti Alloys
14. Torsional Fatigue
15. Mechanism of Fatigue of Steels in the Ultralong Life Regime of N > 10^7 Cycles
16. Effect on Surface Roughness on Fatigue Strength
http://rapidshare.de/files/21106567/MURAKAMI__Y.__2002_._Metal_Fatigue_-_Effects_of_Small_Defects_and_Nonmetallic_Inclusions.ra
