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Nano-Sized Zirconium Carbides: Synthesis, Characterisation and Irradiation

Published online by Cambridge University Press:  26 February 2011

Mickaël Dollé
Affiliation:
[email protected], CEA, DMN/SRMA, France
Dominique Gosset
Affiliation:
[email protected], CEA, DMN/SRMA, France
Christine Bogicevic
Affiliation:
[email protected], CNRS, SPMS/ECP, France
Guido Baldinozzi
Affiliation:
[email protected], CNRS, SPMS/ECP, France
Fabienne Karolak
Affiliation:
[email protected], CNRS, SPMS/ECP, France
David Simeone
Affiliation:
[email protected], CEA, DMN/SRMA, France
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Abstract

The projects of a new generation of nuclear plants with improved yield and drastical reduction of waste production make necessary the development of materials able to withstand high temperature (1000-1200°C) in normal conditions. New materials such as the refractory transition metal carbides are then considered. These materials have a ceramic-like, brittle behaviour. Their mechanical properties might be improved by decreasing the particles size at a nanometer level. The behaviour under irradiation of such nano-sized materials have then to be compared with classical micro-sized ones. High density, nano-sized materials have been obtained by two different sintering techniques. In order to simulate neutron irradiation, the samples were irradiated with low energy heavy ions. Consequently, the damaged material has a low thickness (100-200 nm), requiring surface analysis methods. Here, the grazing incidence X-ray diffraction method is used. From a Rietveld analysis of the diffraction patterns, the micro-sized materials show a linear volume swelling in the range 20-40 dpa in the Zr sublattice. Nano- and micro-sized materials both show high internal distortions.

Type
Research Article
Copyright
Copyright © Materials Research Society 2006

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References

1 Siegel, R.W., Mat. Sci. Forum, 235–238, 851860 (1997)Google Scholar
2 Lu, Yulin, Liaw, P.K., JOM 53(3), 3135 (2001)Google Scholar
3 Bouchard, J., IAEA International conference on fifty years of nuclear power - The next fifty years. Book of extended synopses 234, 2223 (2004).Google Scholar
4 Storms, E.K., Wagner, P., High temp. Sci. 5, 454462 (1973).Google Scholar
5 Andrievskii, R.A. et al. , Inorg. Mat. 14–4, 530533 (1977)Google Scholar
6 Dollé, M. et al. , to be submittedGoogle Scholar
7 Maitre, et al. , SSI 104 (1997), 109 Google Scholar
8 Balzar, D., Popa, N.C., Rigaku Journal, 22–1, 1625 (2005)Google Scholar
9 Bérar, J.F., Garnier, P., Accuracy in Powder Diffraction 2nd conference, NIST, May 1992, Gaithersburg, Maryland, USA, ftp://ftp.grenoble.cnrs.fr/xndGoogle Scholar