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Ion Implanted Ti-6Al-4V

Published online by Cambridge University Press:  25 February 2011

W. C. Oliver ,
R. Hutchings ,
J. B. Pethica ,
E. L. Paradis  and
A. J. Shuskus
W. C. Oliver
Affiliation:
United Technologies Research Center, E. Hartford, CT 06108
R. Hutchings
Affiliation:
Erown Boveri Research Center, CI-5405 Baden, Switzerland
J. B. Pethica
Affiliation:
Erown Boveri Research Center, CI-5405 Baden, Switzerland
E. L. Paradis
Affiliation:
United Technologies Research Center, E. Hartford, CT 06108
A. J. Shuskus
Affiliation:
United Technologies Research Center, E. Hartford, CT 06108
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Abstract

Titanium and many of its alloys show very poor wear resistance considering their hardness. This together with high thermodynamic driving forces to form very hard compounds between titanium and nitrogen or carbon made titanium based alloys obvious candidates for ion implantation. In this paper the effects of similar implanted concentration profiles of nitrogen and carbon in two titanium alloys are compared. The wear behavior of pin on disk wear tests are reported along with the ultramicrohardness of the four samples.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 27: Symposium E – Ion Implantation and Ion Beam Processing of Materials , 1983 , 705
Copyright
Copyright © Materials Research Society 1984

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References

REFERENCES

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