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Kinetic Monte Carlo Simulations of Fecu Alloys

Published online by Cambridge University Press:  15 February 2011

C. Domain ,
C.S. Becquart  and
J.C. Van Duysen
C. Domain
Affiliation:
EDF – DER Département EMA, Les renardières, F-77818 Moret sur Loing Cédex, Francechristophe.domain@edf.fr, jean-claude.van-duysen@edf.fr
C.S. Becquart
Affiliation:
Laboratoire de Métallurgie Physique et Génie des Matériaux, UMR 8517, Bât. C6, Université Lille I, F-59655 Villeneuve d'Ascq Cédex, France, charlotte.becquart@univ-lillel.fr
J.C. Van Duysen
Affiliation:
EDF – DER Département EMA, Les renardières, F-77818 Moret sur Loing Cédex, Francechristophe.domain@edf.fr, jean-claude.van-duysen@edf.fr Laboratoire de Métallurgie Physique et Génie des Matériaux, UMR 8517, Bât. C6, Université Lille I, F-59655 Villeneuve d'Ascq Cédex, France, charlotte.becquart@univ-lillel.fr
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Abstract

The steel vessels of pressurized water reactors are embrittled by neutron irradiation. It is well known that copper atoms play an important role in the embrittlement and that different Cu- containing defects such as Cu-rich clusters (sometimes called atmospheres), Cu precipitates and Cu-vacancy complexes have been identified experimentally. It is still difficult to link the formation of these defects to the primary damage resulting from the neutron inducing displacement cascades. Therefore, we investigate the evolution of the primary damage in FeCu alloys using kinetic Monte Carlo simulations based on a vacancy diffusion mechanism. The calculations rely on adapted, phenomenological, n-body potentials that satisfactorily reproduce properties of FeCu. At room temperature, experimentally identified defects such as Cu-vacancy complexes (one Cu atom bound to three or four vacancies) form in the course of our simulations. Furthermore, it appears that complex defects such as a Cu atom linked to two vacancies are very mobile and are responsible for the formation of small Cu clusters.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 540: Symposium N / Microstructural Processes in Irradiated Materials , 1998 , 643
Copyright
Copyright © Materials Research Society 1999

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References

1 Averback, R.S. and Diaz de la Rubia, T., Solid State Physics 51, 281 (1998)Google Scholar
2 Phythian, W.J., Stoller, R.E., Foreman, A.J.E., Calder, A.F. and Bacon, D.J., J. Nucl. Mater. 223, 245 (1995)Google Scholar
3 Young, W.M. and Elcock, E.W., Proc. phys. Soc. 89, 75 (1966)Google Scholar
4 Soisson, F., Barbu, A. and Martin, G., Acta mater. 44, 3789 (1996)Google Scholar
5 Schaefer, H.E., Maier, K., Weller, M., Herlach, D., Seeger, A., Diehl, J., Scripta Met. 11, 803 (1977)Google Scholar
6 Vehanen, A., Hautojarvi, P., Johansson, J., Yli-Kauppila, J. and Moser, P., Phys. Rev. B 25, 762 (1982)Google Scholar
7 Ludwig, M., Farkas, D., Pedraza, D., Schmauder, S., Model.Simul. Mater. Sci. Eng. 6, 19 (1998)Google Scholar
8 Raulot, J.M., Master of Science Thesis, Université de Marne la vallée (1998)Google Scholar
9 Ackland, G.J., Bacon, D.J., Calder, A.F. and Harry, T. Phil. Mag. A 75 713 (1997)Google Scholar
10 Mathon, M.H., PhD. Thesis, CEA-5701, ISSN 0429-3460 (1995) L.D. Schepper, D. Segers, L. Dorikens-Vanpraet, M. Dorikens, G. Knuyt, L.M. Stals and P. Moser, Phys. Rev. B 27, 5257 (1983)Google Scholar
12 Brauer, G. and Popp, K., Phys. Status Solidi 102, 79 (1987)Google Scholar
13 Osetsky, Yu.N., Mikhin, A.G. and Serra, A., J. Nucl. Mater. 212–215, 236 (1994)Google Scholar
14 Phythian, W.J., Foreman, A.J.E., English, C.A., Buswell, J.T., Hetherington, M., Roberts, K. and Pizzini, S., 15th International Symposium on Effects of Radiation on Materials, ASTM STP 1125, Stoller, R.E, Kumar, A.S. and Gelles, D.S., Eds., ASTM, Philadelphia, 131 (1992)Google Scholar
15 , T.N., Barbu, A., Liu, D. and Maury, F., Scripta metall. mater. 26, 771 (1992)Google Scholar
16 Pareige, P., Welzel, S. and Auger, P., Jour. de Phys. IV, C 5, 229 (1996)Google Scholar
17 Odette, G.R., Wirth, B.D., J. Nucl. Mater. 251, 157 (1997)Google Scholar
18 Maury, F., Lucasson, A., Lucasson, P., Moser, P. and Faudot, F., J. Phys. C 2, 9291 (1990)Google Scholar