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Densification Behavior of Al2O3 Powders Containing ZrO2 Inclusions

Published online by Cambridge University Press:  21 February 2011

O. Sudre ,
D. C. C. Lam  and
F. F. Lange
O. Sudre
Affiliation:
Materials Department, College of Engineering, University of California Santa Barbara, CA 93106.
D. C. C. Lam
Affiliation:
Materials Department, College of Engineering, University of California Santa Barbara, CA 93106.
F. F. Lange
Affiliation:
Materials Department, College of Engineering, University of California Santa Barbara, CA 93106.
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Abstract

Densification experiments using ZrO2 single-crystal particles in an Al2O3 powder matrix were performed to examine the microstructural changes produced by constrained densification. Observations showed the formation of large, lowdensity regions within a denser material network. Enlargement of pores by desintering of necks between grains was observed during grain coarsening within these low-density regions. This pore opening behavior was also investigated in a model experiment.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 155: Symposium L – Processing Science of Advanced Ceramics , 1989 , 363
Copyright
Copyright © Materials Research Society 1989

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References

REFERENCES

1. De Jonghe, L.C., Rahaman, M.N. and Hsueh, C.H., Acta Metall. 34 1467 (1986).Google Scholar
2. Bordia, R.K. and Raj, R., Adv. Cer. Mat. 3 [2],122 (1988).Google Scholar
3. Raj, R. and Bordia, R.K., Acta Metall. 32 1003 (1984).Google Scholar
4. Hsueh, C. H., Evans, A.G. and McMeeking, R.M., J.Am. Cer. Soc. 69 C64 (1986).Google Scholar
5. Mataga, P. A. and Bassani, J. L. (private communication).Google Scholar
6. Bordia, R.K. and Scherer, G.W., Acta Metall. 36, 2393 (1988).Google Scholar
7. Rahaman, M.N. and De Jonghe, L.C., J. Am. Cer. Soc. 67, C205 (1984).Google Scholar
8. Lange, F.F., Acta Metali. 37, 697 (1989).Google Scholar
9. Lange, F.F., J. Mater. Res. 2 59 (1987).Google Scholar
10. Lange, F.F., Davis, B.I. and Wright, E., J. Am. Cer. Soc. 69 66 (1986).Google Scholar
11. Velamakani, B. and Lange, F.F., submitted to. J. Am. Cer. Soc.Google Scholar
12. Miller, K.T. and Lange, F.F., Acta Metall. in press.Google Scholar
13. Miller, K.T., Lange, F.F., and Marshall, D.B., p.823830 in Better Ceramics Through Chemistry III, edited by Brinker, C.J., Clark, D.E., and Ulrich, D.R., Materials Research Society (1988).Google Scholar