References
U. Riege, T. Dippel, and H. Kartes, “Evaluation of ceramic materials as a matrix for solidification of alpha-bearing wastes,” in: Proceedings of Symposium on Management of Alpha Contaminated Waste, IAEA, Vienna (1981), p. 355.
C. Palmer, G. Mellinger, and J. Rusin, “Investigation of vitreous and crystalline ceramic materials for immobilization of alpha-contaminated residues,” in: Proceedings of Symposium on Management of Alpha Contaminated Waste, IAEA, Vienna (1981), p. 339.
A. S. Aloi, A. S. Vishnevskii, B. S. Kuznetsov, et al., “Incorporation of concentrates of cesium and finely dispersed pulps into vitreous and ceramic materials,” At. Énerg.,70, No. 2, 85 (1991).
O. Fiquet and X. Berson, “Ceramization of low- and intermediate-level radioactive wastes,” in: Proceedings of the 1993 International Conference on Nuclear Waste Management and Environmental Remediation, Prague, September, 1993, Vol 3, 225.
A. S. Vishnevskii, A. A. Danilov, L. N. Kozhemyako, et al., “Incorporation of ash residue from burning of radioactive waste into clay-based ceramic matrices,” Radiokhimya, No. 6, 811 (1988).
A. S. Polyakov, M. I. Zhikharev, M. P. Zakharova, et al., “Solidification of intermediate-level liquid wastes using inorganic binders,” At. Énerg.,58, No. 4, 249 (1985).
All-Union State Standard GOST 473.4-81. Products of Chemically Stable and Thermally Stable Ceramics. Methods of Determining the Apparent Density and Apparent Porosity. All-Union State Standard GOST 473.6-81. Methods of Determining the Compressive Strength.
E. D. Khespe, Testing of Solidifed Radioactive Wastes for Leaching [in Russian], AINF 155/P/M. Moscow (1971).
Characteristics of Solidifed High-Level Waste Products, Techn. Rep. Ser. No. 187, IAEA, Vienna (1978).
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Translated from Atomnaya Énergiya, Vol. 72, No. 5, 305–311, May, 1995.
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Aloi, A.S., Kuznetsov, B.S., Kuznetsov, Y.V. et al. Conditioning of radioactive waste by incorporation into clay ceramic materials. At Energy 78, 300–305 (1995). https://doi.org/10.1007/BF02419252
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DOI: https://doi.org/10.1007/BF02419252