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Nanocomposite Tribological Coatings for Rolling Element Bearings

Published online by Cambridge University Press:  11 February 2011

Ryan D. Evans ,
Elizabeth P. Cooke ,
Carl R. Ribaudo  and
Gary L. Doll
Ryan D. Evans
Affiliation:
Materials R&D, The Timken Company, Canton, OH 44706–0930, U.S.A.
Elizabeth P. Cooke
Affiliation:
Materials R&D, The Timken Company, Canton, OH 44706–0930, U.S.A.
Carl R. Ribaudo
Affiliation:
Materials R&D, The Timken Company, Canton, OH 44706–0930, U.S.A.
Gary L. Doll
Affiliation:
Materials R&D, The Timken Company, Canton, OH 44706–0930, U.S.A.
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Abstract

The performance of rolling element bearings is enhanced by the application of nanocomposite coatings that are composed of metal carbides incorporated into an amorphous hydrogenated carbon matrix (MC/a-C:H). When applied to the rolling elements in tapered roller bearings, MC/a-C:H coatings were found to help increase fatigue life, rib-roller end scuffing resistance, and false brinelling resistance in poorly lubricated environments. This series of performance tests were conducted with both coated and uncoated rollers. The results are attributed to the minimization of adhesive interactions and desirable counterface micro-polishing due to the presence of the thin hard coatings on rollers in the bearings.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 750: Symposium Y – Surface Engineering 2002–Synthesis, Characterization and Applications , 2002 , Y4.8
Copyright
Copyright © Materials Research Society 2003

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References

REFERENCES

1 Doll, G. L., Osborn, B. K., “Engineering Surfaces of Precision Steel Components,” 44th Annual Technical Conference Proceedings, Society of Vacuum Coaters, Philadelphia, Apr. 21–26 (2001).Google Scholar
2 Erdemir, A., Surf. and Coat. Tech. 54–55 (1992) 482489.Google Scholar
3 Harris, S. J., Weiner, A. M., Meng, W. J., Wear 211 (1997) 208217.Google Scholar
4 Strondl, C., van der Kolk, G. J., Hurkmans, T., Fleisher, W., Trinh, T., Carvalho, N. M., de Hosson, J. Th. M., Surf. and Coat. Tech. 142–144 (2001) 707713.Google Scholar
5 Meng, W. J., Tittsworth, R. C., Jiang, J. C., Feng, B., Cao, D. M., Winkler, K., Palshin, V., J. App. Phys. 88 [5] (2000) 24152422.Google Scholar
6 Veprek, S., Thin Solid Films 297 (1997) 145153.Google Scholar
7 Harris, T. A., Rolling Bearing Analysis, 2nd Ed., John Wiley & Sons, New York (1984).Google Scholar
8 Pharr, G. M., Oliver, W. C., MRS Bulletin (July 1992) 2833.Google Scholar
9 Ohring, M., The Materials Science of Thin Films, Academic Press, Boston (1992) p. 416.Google Scholar
10 Thomas, T. R., ed., Rough Surfaces, Longman Group Limited, London (1982).Google Scholar
11 Widner, R. L., “Failures of Rolling- Element Bearings,” in Metals Handbook, 9th ed., vol. 11, “Failure Analysis and Prevention” (1986) 490513.Google Scholar
12 Peterson, M. B., Winer, W. O., Wear Control Handbook, ASME (1980).Google Scholar
13 Adamson, A. W., Gast, A. P., Physical Chemistry of Surfaces, 6th Ed., John Wiley & Sons, New York (1997).Google Scholar
14 Horn, R. G., “Measurement of Surface Forces and Adhesion,” in ASM Handbook, vol. 18, “Friction, Lubrication, and Wear Technology” (1992) p. 399405.Google Scholar
15 Grischke, M., Hieke, A., Morgenweck, F., Dimigen, H., Dia. and Rel. Mats. 7 (1998) 454458.Google Scholar
16 Girifalco, L. A., Good, R. J., J. Phys. Chem. 61 (1957) 904.Google Scholar
17 Chaudhury, M. K., Mat. Sci. & Eng. R16 (1996) 97159.Google Scholar
18 Rabinowicz, E., Friction and Wear of Materials, John Wiley & Sons, New York (1965).Google Scholar
19 Giannakopoulos, A. E., Venkatesh, T. A., Lindley, T. C., Suresh, S., Acta. Mater. 47 [18] (1999) 46534664.Google Scholar
20 Wei, R., Wilbur, P. J., Liston, M. J., Lux, G., Wear 162–164 (1993) 558568.Google Scholar
21 Polonsky, I. A., Chang, T. P., Keer, L. M., Sproul, W. D., Wear 215 (1998) 191204.Google Scholar
22 Harris, S. J., Weiner, A. M., Wear 223 (1998) 3136.Google Scholar
23 Evans, R. D., Doll, G. L., Glass, J. T., J. Mater. Res. 17 [11] (2002) 28882896.Google Scholar