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Consolidation and Evolution of Physical-Mechanical Properties of Nanocomposite Materials Based on High-Melting Compounds

Published online by Cambridge University Press:  10 February 2011

R. A. Andrievski ,
G. V. Kalinnikov  and
V. S. Urbanovich
R. A. Andrievski
Affiliation:
Institute for New Chemical Problems, Russian Academy of Sciences, Chernogolovka, Moscow, Region, 142432, Russia
G. V. Kalinnikov
Affiliation:
Institute for New Chemical Problems, Russian Academy of Sciences, Chernogolovka, Moscow, Region, 142432, Russia
V. S. Urbanovich
Affiliation:
Institute of Solid State Physics and Semiconductors, Belarus Academy of Sciences, Minsk, 220726, Belarus
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Abstract

Nanocomposite materials of TiN/TiB2 system are prepared both by high pressure sintering of ultrafine powders and the films deposition using magnetron sputtering. Properties and structure of obtained paniculate and film materials derived from hardness measurements as well as TEM and SEM analyses are discussed and compared in detail.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 457: Symposium V – Nanophase and Nanocomposite Materials II , 1996 , 413
Copyright
Copyright © Materials Research Society 1997

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References

REFERENCES

1. Andrievski, R.A., J. Mater. Sci., 29, 614 (1994)Google Scholar
2. Suryanarayana, C., Int. Mater. Rev., 40, 41 (1995)Google Scholar
3. Andrievski, R.A., in Advances in Powder Metallurgy & Particulate Materials, (in press)Google Scholar
4. Andrievski, R.A., Urbanovich, V.S., Kobelev, N.P. and Kuchinski, V.M., in FOURTH EURO CERAMICS. ed.Bellosi, A., Vol. 4 (Gruppo Edit. Faenza, Printed in Italy, 1995)Google Scholar
5. Andrievski, R.A., Kalinnikov, G.V., Potafeev, A.F., Ponomarev, M.A. and Sharivker, S. Yu., Inorg. Mater., 31, 1395(1995)Google Scholar
6. Andrievski, R.A., in Processing and Properties of Nanocrystalline Materials, eds. Suryanarayana, C., Singh, J., and Froes, F.H. (TMS, Warrendale, 1996)Google Scholar
7. Andrievski, R.A., Nanosrtuct. Mater., 1997, accepted for publicationGoogle Scholar
8. Chupov, V.D., Unrod, V.I., and Ordanyan, S.S., Powder Metall (in Russ.), N1, 62 (1981)Google Scholar
9. Tkachenko, Yu.G., Ordanyan, S.S., Yurchenko, D.Z., Yulyugin, V.K., and Chupov, D.V., Powder Metall (in Russ.), N2, 70(1983)Google Scholar
10. Holleck, H., J. Vac. Sci. Technol., A4, 2661 (1986)Google Scholar
11. Holleck, H. and Schulz, H., Surf. Coat. Techn., 36, 707 (1988)Google Scholar
12. Mitterer, C., Rauter, M., and Rodhammer, P., Surf. Coat. Techn., 41, 351 (1990)Google Scholar
13. Knotek, O. and Loffler, F., J. Hard Mater., 3, 29(1992)Google Scholar
14. Giaziani, T., Melaudri, C., and Bellossi, A., J. Hard Mater., 4, 29 (1993)Google Scholar
15. Nowakowski, M., Su, K., Sneddon, L., and Bonnel, D., in Nanophase and Nanocomposite Materials. eds. Komarneni, S., Parker, J., and Thomas, G., Vol.286 (MRS, Pittsburgh, 1993)Google Scholar
16. Szabo, V., Ruhle, M., Su, K., Sneddon, L.G., and Bonnel, D., in Nanophase and Nanocomposite Materials. eds. Komarneni, S., Parker, J., and Thomas, G., Vol.286 (MRS, Pittsburgh, 1993), p. 443 Google Scholar
17. Hammer, P., Steiner, A., Villa, R., Baker, M., Gibson, P.N., Haupt, J., and Gissler, W., Surf. Coat. Techn., 68/69, 194(1994)Google Scholar
18. Dai, J.Y., Wang, Y.G., Li, D.X., and Ye, H.Q., Phil. Mag., 70A, 905 (1994)Google Scholar
19. Moriyama, M., Aoki, H., and Kamata, K., Ceram, J.. Soc. Jap., 103, 844 (1995)Google Scholar
20. Zhang, G., Ceram. Int., 21, 29 (1995)Google Scholar
21. Andrievski, R.A., Kalinnikov, G.V., Potafeev, A.F., and Urbanovich, V.S., Nanostr. Mater., 6, 353(1995)Google Scholar
22. Watanabe, T., in Mechanical Properties and Deformation Behaviour of Materials Having Ultra-Fine Microstructure, eds. Nastasi, M., Parkin, D.M., and Gleiter, H. (Kluwer Acad. Pubi., Dodrecht, 1993)Google Scholar
23. Herr, W., Matthes, B., Broszeit, E., and Kloos, K.H., in Mechanical Properties and Deformation Behaviour of Materials Having Ultra-Fine Microstructure, eds. Nastasi, M., Parkin, D.M., and Gleiter, H. (Kluwer Acad. Pubi., Dodrecht, 1993) A140, 616 (1991)Google Scholar
24. Oliver, W.C., McHargue, C.J., and Zinkle, S.J., Thin Solid Films, 153, 185 (1987)Google Scholar
25. Andrievski, R.A., Belokon', I.A., and Fuksman, Z. Kh., in High Performance Ceramic Films and Coatings, ed.Vincenzini, P. (Elsevier, Amsterdam, 1991)Google Scholar
26. Wen, L.S., Chen, X.Z., Yang, Q.Q., Zheng, Y.Q., Chuang, Y.Z., Surf. Eng., 6, 41 (1990)Google Scholar
27. Andrievski, R.A., Russ. Chem. Rev., 1997, accepted for publicationGoogle Scholar
28. Jonsson, B. and Hogmark, S., Thin Solid Films, 114, 257 (1984)Google Scholar
29. Murray, J.L., Liao, P.K., and Spear, K.E., Bull. Alloy Phase Diagr., 7, 550 (1986)Google Scholar