On the mechanism of fatigue failure in the superlong life regime (N>107 cycles). Part II: influence of hydrogen trapped by inclusions

Author:

Murakami Y.,Nomoto T.,Ueda T.,Murakami Y.

Publisher

Wiley

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Reference5 articles.

1. On the mechanism of fatigue failure in the superlong life regime (N>107 cycles). Part 1: influence of hydrogen trapped by inclusions

2. D Chen, H Nisitani, and K Mori, 1993 Three-dimensional surface and interior cracks. In:Stress Intensity Factors Handbook, Vol. 3. (Edited by Y. Murakami), Society of Materials Science, Japan, 661, 662

3. Super-long life tension–compression fatigue properties of quenched and tempered 0.46% carbon steel

4. Y Murakami, K Matsuda, Y Ohkomori, I Kitagawa, and K Shinozuka, 1989 Effects of nonmetallic inclusions and corrosion pits on the fatigue strength of a high strength steel. In:Proceedings International Conference on Evaluation of Materials Performance in Severe Environments(J. Takamura, ed.). The Iron and Steel Institute of Japan, Tokyo, Japan, 143, 150

5. A Critical Analysis of Crack Propagation Laws

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