Effect of Size and Depth of Small Defect on the Rolling Contact Fatigue Strength of Bearing Steel JIS-SUJ2
Author:
Publisher
Elsevier BV
Subject
General Earth and Planetary Sciences,General Environmental Science
Reference15 articles.
1. Cheng, W, Cheng, H.S., Keer, L.M., Ai, X., 1993. Surface Crack Initiation under Contact Fatigue: Experimental Observation and Contact Analysis. Transactions of the ASME, Journal of Tribology 115, 658-665.
2. da Mota, V.M. M. B., Moreira, P.M. G. P., Ferreira, L.A. A., 2008. A Study on the Effects of Dented Surfaces on Rolling Contact Fatigue International Journal of Fatigue 30, 1997-2008.
3. Dommarco, R.C., Bastias, P.C., Hahn, G.T., Rubin, C.A., 2002. The Use of Artificial Defects in the 5-Ball-Rod Rolling Contact Fatigue Experiments. Wear 252, 430-437.
4. Dommarco, R.C., Bastias, P.C., Rubin, C.A., Hahn, G.T., 2006. The Influence of Material build up Around Artificial Defects on Rolling Contact Fatigue Life and Failure Mechanism. Wear 260, 1317-1323.
5. Fujii, Y., Maeda, K., 2002. Flaking Failure in Rolling Contact Fatigue Caused by Indentations on Mating Surface (I) Reproduction of Flaking Failure Accompanied by Cracks Extending Bi-Directionally Relative to the Load-Movement. Wear 252, 787-798.
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