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Investigation on the Oxidation State and The Behaviour of Molybdenum in Silicate Glass

Published online by Cambridge University Press:  15 February 2011

Anette Horneber ,
Boubacar Camara  and
Werner Lutze
Anette Horneber
Affiliation:
Institut für Werkstoffwissenschaften III, Universitat Erlangen-Nürnberg, Martensstr. 5, D 8520 Erlangen;
Boubacar Camara
Affiliation:
Institut für Werkstoffwissenschaften III, Universitat Erlangen-Nürnberg, Martensstr. 5, D 8520 Erlangen;
Werner Lutze
Affiliation:
Hahn-Meitner-Institut fur Kernforschung Berlin GmbH., Glienicker Strale 100, D 1000 Berlin 39
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Extract

Knowledge about the oxidation state of molybdenum in glasses and glass ceramics which contain nuclear waste is important because of the danger of formation of water-soluble Cs-molybdate with Cs-137. In a previous paper , the behaviour of molybdenum in glasses with and without fission products was investigated with the aid of ESR and optical spectroscopy.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 11: Symposium – Scientific Basis for Nuclear Waste Management V , 1981 , 279
Copyright
Copyright © Materials Research Society 1982

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References

REFERENCES

1. Camara, B. Lutze, W. and Lux, J. (1979) Scientific Basis for Nuclear Waste Management, Jr.Northrup, C.J.M. ed., Plenum Press, New York and London, Vol 2, pp. 93102.Google Scholar
2. Fraga, S. Karwowski, J. and Saxena, K.M.S. (1976) Handbook of Atomic Data, Elsevier Scientific Publishing Company, Amsterdam-Oxford.Google Scholar
3. Landry, J. and Forunier, J.T. Arpa No. 306, Research Center, American Optical Company, Southbridge, MA.Google Scholar
4. Hartmann, H. and Schmidt, J.J. (1957) Z. Phys. Chem. N.F. 11, 234.Google Scholar
5. Christ, K. (1965) Dissertation: Spektralphotometrische und magnetische Untersuchungen an Molybdän (III)-Komplexverbindungen, Frankfurt/M.Google Scholar
6. Weyl, W.A. (1951)Ceioured Glasses, Soci. of Glass Techn., Sheffield, 213.Google Scholar
7. Lutze, W. Borchardt, J. and , A.K. (1979) Scientific Basis for Nuclear Waste Management, McCarthy, G.J. ed, Plenum Press, New York and London, pp. 6981.10.1007/978-1-4615-9107-8_8Google Scholar
8. Singer, G. and Tomozawa, M. (1979) in Proc. Int. Symposium on Ceramics in Nuclear Waste Management, Chikalla, T.D. and Mendel, J.E. ed, Technical Information Center, pp. 193197.Google Scholar
9. Lux, J. (1979/1980) Diplomarbeit, Universit~t Erlangen-NOrnberg, Institut für Werkstoffwissenschaften III.Google Scholar
10. Weyl, W.A. (1938) Sprechsaal 71, Jahrg. 9.Google Scholar
11. Stepanov, S.A. Zarubina, T.V. Iglatev, E.G. and Skorospelova, V.I. (1979) Sov. Journal of Glass Physics and Chemistry (Fizika i chimija stekla) 5,314.Google Scholar
12. Lakatos, T. (1979) Teknisk Rapport, Swedish Glass Research Inst. Växjö,79.Google Scholar
13. Camara, B. and Schaeffer, B. (1981) Ber. der Deutschen Keram. Gesellschaft 7,519.Google Scholar
14. Horneber, A. (1980/1981) Diplomarbeit, Universitat Erlangen-Nürnberg, Institut für Werkstoffwissenschaften III.Google Scholar