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Design and Synthesize of New Ternary Zirconium Silicide Intermetallic Compounds with the 16H Crystal Structure

Published online by Cambridge University Press:  25 February 2011

Yukinori Ikarashi  and
Kozo Ishizaki
Yukinori Ikarashi
Affiliation:
Tsuruoka Kogyo Koto Senmon Gakko (Tsuruoka Nat. Coll. of Tech.) 104 Sawada Ino–oka Tsuruoka, Yamagata 997, Japan
Kozo Ishizaki
Affiliation:
Nagaoka Gijyutsu–Kagaku Daigaku (Nagaoka Univ. of Tech.) Nagaoka, Niigata 940–21, Japan
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Abstract

The zirconium silicide intermetallic compounds with the 16H crystal structure are good materials for high temperature structural applications, because of their high melting point and low density. Their shortcoming is low ductility. To increase ductility, the coordination numbers are increased to increase isotropy of bondings, and to have more metallic nature of bonds.

Combination of elements, silicon, zirconium and other atoms for ternary silicides are selected by theoretical consideration of the coordination numbers. As the coordination numbers increase, the atomic bonds increase metallic properties, and their ductility increases. Higher coordination numbers are obtained by substituting yttrium atoms onto zirconium 6g point set sites.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 322: Symposium F – High-Temperature Silicides and Refractory Alloys , 1993 , 235
Copyright
Copyright © Materials Research Society 1994

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References

1. Fleischer, R. L., J. Mater. Sci., 22, 2281 (1987).Google Scholar
2. Celis, P. B. and Ishizaki, K., J. Mater. Sci., 26, 3497 (1991).Google Scholar
3. Celis, P. B., Ishizaki, K., Kagawa, E. and Ishikawa, J., in Pressure Effects on Materials Processing and Design, edited by Ishizaki, K., Hodge, E., and Concannon, M. (Mater. Res. Soc. Symp. Proc., 251, Pittsburgh, PA, 1992) pp. 914.Google Scholar
4. Celis, P.B. and Ishizaki, K., Bull. Iron and Steel Inst. Jpn. (Tetsu to Hagane), 78, 26 (1992).Google Scholar
5. Celis, P. B., Kagawa, E. and Ishizaki, K., J. Mater. Res., 6, 2077 (1991).Google Scholar
6. Steinmetz, J., Venturini, G., Roques, B., Engel, N., Chabot, B. and Parthe, E., Acta Cryst., B38, 21032108 (1982).Google Scholar
7. Pauling, L.: J. American Chem. Soc., 69, 542 (1947).Google Scholar
8. Villars, P. and Calvert, L. D., in Pearson's Handbook of Crystallographic Data for Intermetallics (ASM, Metals Park, OH, vol.2, 1985) p.3190, p.3194, and pp.31983200.Google Scholar