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The Reduction of Wear and Wear Variability Under Lubricated Sliding by Ion Implantation

Published online by Cambridge University Press:  25 February 2011

J.J. Au
Affiliation:
Sundstrand Aviation Operations, 4747 Harrison Avenue, Rockford, IL 61101;
P. Sioshansi
Affiliation:
Spire Corporation, Patriots Park, Bedford, MA 01730
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Abstract

Block-on-ring wear tests were performed on Ti-implanted AISI 52100 steel sliding against three commercial alloys: CDA 673 brass, AISI 4140 low alloy steel, and AISI 0–6 tool steel. A turbine oil, meeting MIL-L 23699 specifications, was used as the lubricant. The 52100 wear rings were ion implanted to a fluence of 2 × 1017 Ti/cm2 at 55 KeV or 125 KeV. Comparison with non-treated 52100 wear rings indicated that ion implantation reduced the amount of wear and wear variability. It is hypothesized that reduced adhesion and improved lubricant film formation due to the presence of the implanted layer was responsible for the reduction in wear and wear variability.

Type
Research Article
Copyright
Copyright © Materials Research Society 1984

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References

REFERENCES:

1. Hartley, N. E. W., Dearnaley, G., Turner, J. F., and Saunders, J. in: Applications of Ion Beam to Metals, Picraux, S. T., and ErNisse, E. P., eds. (Plenum Press, NY 1974) pp. 123138.Google Scholar
2. Dearnaley, G. and Hartley, N. E. W., Thin Solid Films, 54, pp. 215231 (1978).Google Scholar
3. Hirvonen, J. K., J. Vac. Sci. Technol., 15, pp. 16621668 (1978).Google Scholar
4. Hirvonen, J. K., Carosella, C. A., Kant, R. A., Singer, I., Vardiman, R., and Rath, B. B., Thin Solid Films, 63, pp. 510 (1979).Google Scholar
5. Carosella, C. A., Singer, I. L., Bowers, R. C., and Gossett, C. R. in: Ion Implantation Metallurgy, Preece, C. M. and Hirvonen, J. K., eds. (The Metallugical Society of A.I.M.E., Warrendale, Pennsylvania, 1980), p. 103.Google Scholar
6. Suh, N. P. and Sin, H. C., Wear, 69, pp. 91114 (1981).Google Scholar
7. Follstaedt, D. M., Knapp, J. A., and Picraux, S. T., Appl. Phys. Lett., 37, pp. 330333 (1980).Google Scholar
8. Singer, I. L., Carosella, C. A., and Reed, J. R., Nucl. Inst. and Methd., 182/183, p. 923 (1981).Google Scholar
9. Suh, N. P. and Shepard, S. R., Progress Report to the Office of Naval Research, Contract No. N00014–80–C–0255, (1981).Google Scholar
10. Au, J. J., Sundstrand Materials Project Report No. 19321, (1982).Google Scholar