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Ceramic-Metal Interactions

Published online by Cambridge University Press:  22 February 2011

J. T. Klomp
J. T. Klomp*
Affiliation:
Philips Research Laboratories, P.O. Box 80.000, 5600 JA Eindhoven, The Netherlands
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Abstract

Ceramic-metal interactions are on the basis of a variety of technologies covering the fields of materials production as in ceramic-metal composites and the techniques of joining ceramic to metal. The physics and chemistry of interactions at ceramic-metal interfaces are still the subject of intensive studies not only from a scientific point of view but also for technological reasons because the emergence of new ceramic materials calls for insight into the interactions of these materials with metals. In this paper the mechanisms of ceramic-metal interactions are reviewed against the background of the technology and some extensions of existing interaction models are given.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 40: Symposium J – Electronic Packaging Materials Science I , 1984 , 381
Copyright
Copyright © Materials Research Society 1985

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References

1. Proc. Conference on Structure and Properties of Interfaces. Irsee August 1984, to be published in Journal de Physique.Google Scholar
2. Tabor, D. Colloid and Interface Science I. Kerker, M., Rowell, R.L., Zettlemoyeir, A.C., ed. Academic Press N.Y. (1977)3.Google Scholar
3. Yesin, V.O., Porozkov, V.N., Danilyuk, V.I., Phys. Met.Metall. 53(1982)149.Google Scholar
4. Fletcher, N.H., Adv.Mat.Res. 5(1971)281.Google Scholar
5. Mulder, C.A.M., Klomp, J.T., to be published in Journal de Physique.Google Scholar
6. Pilliar, R.M., Nutting, J., Phil. Mag. 16(1967) 181.CrossRefGoogle Scholar
7. Miedema, A.R., Boom, R., Z. Naturforsch. 69(1978)183.Google Scholar
8. Rhee, S.K., J.Am.Ceram.Soc. 55(1972)300.CrossRefGoogle Scholar
9. Nicholas, M., The Strength of Metal-Alumina Interfaces, AERE-R5681, 1968.Google Scholar
10. Eremenko, V.N., Naydich, Y.V., The Wetting of Refractory Compounds with Liquid Metals, Akad.Sci.Ukrain SRR (1958) 94.Google Scholar
11. Humenik, M., Kingery, W.D., J.Am.Ceram.Soc. 37(1954)18.Google Scholar
12. McLean, M., Hondros, E.D., J.Mat.Sci. 6(1971)19.CrossRefGoogle Scholar
13. Kingery, W.D., J.Am.Ceram.Soc. 37(1954)42.Google Scholar
14. Powder Diffraction Files, Joint Comm. on Powder Diff. Standards, Philadelphia 1967.Google Scholar
15. Brennan, J.J., Pask, J., J.Am.Ceram.Soc. 51(1968)569.Google Scholar
16. Brewer, L., Searcy, A.W., J.Am.Ceram.Soc. 73 (1951)308.Google Scholar
17. Champion, J.A., Keene, B.J., Sillwood, J.H., J.Mat.Sci. 14(1969)39.Google Scholar
18. Klomp, J.T., Science of Ceramics 5, Swedish Inst.Silic.Res. Gotenburg (1970)501.Google Scholar
19. Klomp, J.T., Ven, v.d. A.J.C., J.Mat.Sci. 15(1980)2483.CrossRefGoogle Scholar
20. Klomp, J.T., Vrugt, P.J., Surfaces and Interfaces in Ceramic and Ceramic-Metal Systems, Pask, J., Evans, A. ed. Plenum N.Y. (1981)97.Google Scholar
21. Johnson, K.H., Pepper, S.V., J.Appl.Phys. 53(1982)6634.CrossRefGoogle Scholar
22. Pepper, S.V., J.Appl.Phys. 47(1976)801.CrossRefGoogle Scholar
23. Kurkjian, C.R., Kingery, W.D., J.Phys.Chem. 60(1956)961.CrossRefGoogle Scholar
24. McDonald, J.E., Eberhart, J.G., Trans.Metall.Soc. AIME 233(1965)512.Google Scholar
25. Iseki, T., Maruyama, T., Brit.Ceram.Proc. 34(1984)241.Google Scholar
26. Klomp, J.T., Brit.Ceram.Proc. 34(1984)249.Google Scholar
27. Morozumi, S., Kikuchi, M., Nishino, T., J.Mat.Sci. 16(1981)2137.Google Scholar
28. Niessen, A.K., Miedema, A.R., Ber.Bunsen Ges. Phys.Chem. 87(1983)717.CrossRefGoogle Scholar
29. Huisinga, T., Prins, R., J.Phys.Chem. 85(1981)2156.Google Scholar
30. Beneder, G.P. not published.Google Scholar