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Corrosion of Ti99.8-Pd Under Gamma Irradiation in MgC12-Rich Brine

Published online by Cambridge University Press:  10 February 2011

E. Smailos ,
D. Schild  and
K. Gompper
E. Smailos
Affiliation:
Forschungszentrum Karlsruhe GmbH, Institut für Nukleare Entsorgungstechnik, Postfach 3640, 76021 Karlsruhe, Germany
D. Schild
Affiliation:
Forschungszentrum Karlsruhe GmbH, Institut für Nukleare Entsorgungstechnik, Postfach 3640, 76021 Karlsruhe, Germany
K. Gompper
Affiliation:
Forschungszentrum Karlsruhe GmbH, Institut für Nukleare Entsorgungstechnik, Postfach 3640, 76021 Karlsruhe, Germany
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Abstract

The combined influence of gamma radiation (10 Gy/h) and high temperature (150 °C) on the corrosion of the promising HLW container material Ti99.8-Pd was investigated in an MgCl2-rich brine, and the corrosion surface films formed were characterized by XPS. For comparison, specimens without irradiation were also examined.

Under the test conditions used, the alloy Ti99.8-Pd is resistant to local corrosion and its general corrosion is negligible low. The thin corrosion films formed on the surface of unirradiated specimens and in the crevices of specimens exposed to radiation consist of TiO2. However, outside the crevices of irradiated specimens, a surface layer consisting of Mg (main component of the brine) and Si (impurity in the brine) oxide is built up over the TiO2 layer. Comparable TiO2 layer thicknesses (30 - 65 nm, depending on the experimental conditions) are found for unirradiated and irradiated laboratory specimens. The TiO2 layer formed on the in-situ corrosion specimens (33 nm / 5.3 years) is thinner than that of the laboratory specimens (58 nm / 191 days) indicating less aggressive conditions in the field experiments. In view of these results, the alloy Ti99.8-Pd continues to be considered as a strong candidate container material and will be further investigated.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 506: Symposium – Scientific Basis for Nuclear Waste Management XXI , 1997 , 477
Copyright
Copyright © Materials Research Society 1998

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References

REFERENCES

1 Marsh, G.P., Pinard-Legry, G., Smailos, E., Casteels, F., Quang, K. Vu, Cripps, J., Haijtink, B., Proc. of the Second European Community Conference on Radioactive Waste Management and Disposal, Luxembourg, April 22-26, 1985, p. 314, edited by Simon, R.A., Cambridge University Press (1986).Google Scholar
2 Smailos, E., Schwarzkopf, W., Storch, R., Proc. of the 12th Scandinavian Corrosion Congress and EUROCORR'92, SF, May 31-June 4, 1992, Vol II, p. 327, edited by Tunturi, P.J., The Corrosion Society of Finland (1992).Google Scholar
3 Jenks, G.H., ORNL-TM-3717, Oak Ridge National Laboratory (1972).Google Scholar
4 Bjalobzeskij, A.V., Korrosion durch radioaktive Strahlung, edited by Schwabe, K., Akademie Verlag, Berlin, (1971) p. 82.Google Scholar
5 Ahn, T.M., Soo, P., NUREG/CR-2317, BNL-NUREG-51449, Vol. 1, No. 4, Brookhaven National Laboratory (April 1983).Google Scholar
6 Moulder, J.F., Stickle, W.F., Sobol, P.E., Bomben, K.D., Handbook of X-ray Photoelectron Spectroscopy, edited by Chastain, J., Perkin-Elmer Corporation, Physical Electronics Devision, Eden Prairie, Minnesota, USA (1992).Google Scholar
7 Wagner, C.D., Bickham, D.M., NIST X-ray Photoelectron Spectroscopy Database, NIST (National Institute for Standards and Technology) Standard Reference Database 20, Ver. 1.0 (1989).Google Scholar
8 Pfennig, G., Moers, H., Klewe-Nebenius, H., Kaufmann, R., Ache, H.J., Microchimica Acta [Wien], Suppl. 11 (1985) 113124.Google Scholar
9 Bardi, U., Tamura, K., Owari, M., Nihei, Y., Appl. Surf. Sci. 32 (1988) 352362.Google Scholar
10 Kim, Y.J., Oriani, R.A., Corrosion 43 (2) (1987) 8591.Google Scholar