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Properties and Potential Areas of Application

Published online by Cambridge University Press:  22 February 2011

Andrei A. Rempel ,
Alexander I. Gusev ,
Lutz-M. Berger  and
Volkmar Richter
Andrei A. Rempel
Affiliation:
Institute of Solid State Chemistry, Russian Academy of Sciences, Pervomaiskaya 91, GSP-145 Ekaterinburg 620219, Russia
Alexander I. Gusev
Affiliation:
Institute of Solid State Chemistry, Russian Academy of Sciences, Pervomaiskaya 91, GSP-145 Ekaterinburg 620219, Russia
Lutz-M. Berger
Affiliation:
Fraunhofer-Facility of Ceramic Technologies and Sintered Materials, Winterbergstrasse 28, D-01277 Dresden, Germany
Volkmar Richter
Affiliation:
Fraunhofer-Facility of Ceramic Technologies and Sintered Materials, Winterbergstrasse 28, D-01277 Dresden, Germany
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Abstract

In this paper the differences of properties of stoichiometric and nonstoichiometric IVBand VB-Group carbides will be discussed. On the base of newer investigations of their physical and chemical properties it seems to be possible to improve material properties by using them instead of stoichiometric ones in some applications.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 327: Symposium N – Covalent Ceramics II: Non-Oxides , 1993 , 183
Copyright
Copyright © Materials Research Society 1994

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References

1. Gusev, A.I., Physical Chemistry of Nonstoichiometric Refractory Compounds. (Nauka, Moscow, 1991). (in Russian).Google Scholar
2. Gusev, A.I. and Rempel, A.A., Structural Phase Transitions in Nonstoichiometric Compounds. (Nauka, Moscow, 1988). (in Russian).Google Scholar
3. Gusev, A.I. and Rempel, A.A., Phys. Status Solidi, b 131, 43 (1985).Google Scholar
4. Gusev, A.I. and Rempel, A.A., Phys. Status Solidi, b 140, 335 (1987).Google Scholar
5. Gusev, A.I. and Rempel, A.A., J. Phys. Chem. Solids, (to be published).Google Scholar
6. Holleck, H., Scholz, B., Schneider, H., Thitmmler, F., Z. MetaUkunde, 65, 738 (1974).Google Scholar
7. Ordan'yan, S.S., Tabatadze, G.S., Koslovskij, L.V., Porosh. Met., No.7, 43 (1979).Google Scholar
8. Ordan'yan, S.S., Kravchik, A.E., Neshpor, V.S., Porosh. Met., No. 12, 57 (1977).Google Scholar
9. Andrievskij, R.A., Klimenko, V.V., Mitrofanov, V.I., Poltoratskij, N.I., Porosh. Met., No.6, 22 (1977).Google Scholar
10. Ordan'yan, S.S., Avgustinik, A.I., Kudryasheva, L.V., Porosh. Met., No.8, 26 (1968).Google Scholar
11. Ordan'yan, S.S., Kravchik, A.E., Neshpor, V.S., Porosh. Met., No.5, 47 (1978).Google Scholar
12. Markhasev, B.I., Pioro, N.Ch., Klyugvant, V.V., Smirnov, V.P., Dshamarov, S.S., Izv. Akad. Nauk SSSR, Neorg. Mat., 21, 592 (1985).Google Scholar
13. Quinn, C.J., Kohlstedt, D.L., J. Mater. Sci., 19, 1229 (1984); ibid., 1242 (1984).Google Scholar
14. Tsurekawa, S., Nakashima, M., Murata, A., Kurishita, H., Yoshinaga, H., J. Japan Inst. Metals, 55, 390(1991).Google Scholar
15. Kieffer, R., Fister, D., Planseeber. Pulvermet., 18, 246 (1970).Google Scholar
16. Fister, D., Kieffer, R., Planseeber. Pulvermet., 22, 175 (1974).Google Scholar