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Analysis of a Rapidly Solidified High-Phosphorus Austenitic Steel Containing an Amorphous Phase

Published online by Cambridge University Press:  15 February 2011

T. F. Kelly
Affiliation:
Mit, Cambridge, MA
G. B. Olson
Affiliation:
Mit, Cambridge, MA
J. B. Vander Sande
Affiliation:
Mit, Cambridge, MA
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Abstract

Rapid solidification of a high-phosphorus austenitic steel produces a fine cellular solidification structure containing an amorphous phase at the cell walls. The amorphous phase, which is stable to ∼500°C, is enriched in phosphorus and chromium, but contains significantly less phosphorus than conventional glass-forming alloys. Hot consolidation of powders produces a chemically-uniform metastable austenite which can be effectively precipitation hardened by phospho-carbides.

Type
Research Article
Copyright
Copyright © Materials Research Society 1982

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References

REFERENCES

1.Banerjee, B. R., Dulis, E. J., and Hauser, J. J., Trans. ASM 61, 103 (1968).Google Scholar
2.Zackay, V. F., Parker, E. R., Fahr, D., and Busch, R., Trans. ASM 60,252(1967).Google Scholar
3.Olson, G. B. and Azrin, M., unpublished research, AMMRC, Watertown,MA,1978.Google Scholar
4.Kelly, T. F., Vander Sande, J. B., and Cohen, M., this Symposium.Google Scholar
5.Kelly, T. F., Ph.D. Thesis, MIT, February 1982.Google Scholar
6.Thompson, C. V., Greer, A. L., and Drehman, A. J., Proc. 4th Intl. Conf. Rapidly Quenched MetalsSendai, JapanAugust 1981.Google Scholar
7.Suga, M., Goss, J. L., Olson, G. B., and Vander Sande, J. B., Proc. 2nd Intl. Conf. Rapid Solidification Processing: Principles and Technologies (Claitor's, Baton Rouge, 1980) pp. 364371.Google Scholar
8.Leal, R., MIT thesis research In progress.Google Scholar