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Study of Glass-Ceramic Waste Forms

Published online by Cambridge University Press:  10 February 2011

S.V. Stefanovsky
Affiliation:
SIA “Radon”, 7th Rostovsky per. 2/14, Moscow 119121, Russia
S.V. Ioudintsev
Affiliation:
Institute of Geology of Ore Deposits, Staromonetny per. 35, Moscow 109017, Russia
B.S. Nikonov
Affiliation:
Institute of Geology of Ore Deposits, Staromonetny per. 35, Moscow 109017, Russia
B.I. Omelianenko
Affiliation:
Institute of Geology of Ore Deposits, Staromonetny per. 35, Moscow 109017, Russia
T.N. Lashtchenova
Affiliation:
SIA “Radon”, 7th Rostovsky per. 2/14, Moscow 119121, Russia
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Abstract

Since the early of the 1990s the method of inductive melting in a cold crucible (IMCC) has been applied at SIA “Radon” for production of various wasteforms, including glasses and Synroc-type ceramics. Sphene-based glass-ceramics composed of glass and crystalline phases were considered as appropriate wasteform for High Level Waste immobilisation. Investigation of two glass-ceramic specimens prepared with the IMCC has been performed using optical microscopy, XRD, SEM/EDS, and TEM methods. The samples produced consist of vitreous and crystalline phases. The vitreous phase consists of two varieties of glass formed by the immiscibility of the initial melt onto two separate liquids. One of the glasses is observed as spherical microinclusions in the matrix glass. The glass of the microspheres are differed from the matrix glass composition by higher contents of Ca, Ti, Ce, Sr, Zr (or Cr), while the matrix glass contains higher amounts of Si, Al, and alkalies. The crystalline phases with sphene- and perrierite-like structures have been also occurred. Their total quantity reaches up to 50 vol.%. The synthetic perrierite has similar unit-cell parameters with its natural mineral analogs with the only exception in two-fold value of c dimension. Zr, Ce, and Sr are incorporated into synthetic sphene and perrierite, while Cs is hosted by the glass phases.

Type
Research Article
Copyright
Copyright © Materials Research Society 1998

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References

REFERENCES

1 Hayward, P.J., Vance, E.R., Cann, C.D., and Mitchell, S.L., Advances in Ceramics, 8, 291 (1984).Google Scholar
2 Hayward, P.J., Glass-ceramics, in Radioactive Waste Forms For The Future, edited by Lutze, W. and Ewing, R.C., (Elsevier Science Publishers, Amsterdam, 1988) p. 427.Google Scholar
3 Sobolev, I.A., Lifanov, F.A., Stefanovsky, S.V., and Dmitriev, S.A., in Waste Management'95, Tucson, Arizona, Febr. 26 - March 2, (1995) p. 19.Google Scholar
4 Sobolev, I.A., Dmitriyev, S.A., and Lifanov, F.A., in Radioactive Waste Management and Environmental Remediation, edited by Slate, S., Baker, R., and Benda, G., (ASME edition, NY, 1995) p. 1125.Google Scholar
5 Povarennykh, A.S., Crystal-chemical classification of mineral species (in Russ), (Naukova Dumka, Kiev, 1966) p.316.Google Scholar
6 Haggerty, S.E. and Mariano, A.N., Contrib. Mineral. Petrol., 84, 365 (1983).Google Scholar