Conclusions
The authors have developed a procedure for making heat-resistant artifacts of granular masses based on yttrium oxide-stabilized zirconium dioxide. The highest spalling resistance is exhibited by artifacts containing 20–35% of the monoclinic phase, as previously established for artifacts of calcium oxide-stabilized zirconium dioxide.
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V. I. Strakhov, G. G. Sergeeva, and I. N. Chernousov, Ogneupory, No. 3, 52–55 (1976).
C. E. Curtis, J. Am. Ceram. Soc.,30, No. 6, 180–196 (1947).
O. I. Whittemore and D. W. Marshall, J. Am. Ceram. Soc.,35, No. 4, 85–89 (1952).
O. M. Margulis, Sbornik Nauchnykh Trudov (UNIIO), No. 4, Metallurgizdat, Kharkov, 50–62 (1960).
A. G. Karaulov, A. A. Grebenyuk, and I. N. Rudyak, Izv. Akad. Nauk SSSR, Neorg. Mater.,3, No. 6, 1101–1103 (1967).
A. G. Karaulov, Ogneupory, No. 1, 43–50 (1974).
A. G. Karaulov, A. A. Grebenyuk, N. V. Gul'ko, et al., “Theoretical and practical investigations on refractories,” Sbornik Nauchnykh Trudov UkrNIIO, No. 10, 83–92, Metallurgiya, Moscow (1967).
A. G. Karaulov, I. N. Rudyak, and N. M. Taranukha, Izv. Akad. Nauk SSSR, Neorg. Mater.,10, No. 7, 1281–1285 (1974).
A. G. Karaulov, I. N. Rudyak, and N. M. Taranukha, in: Abstracts of Reports to the Conference on the Chemistry, Technology, and Use of Zirconium, Hafnium and Their Compounds [in Russian], Izd. Giredmeta, Moscow (1971), pp. 102–103.
A. S. Berezhnoi, Ogneupory, No. 7, 305–314 (1954).
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Translated from Ogneupory, No. 11, 36–39, November, 1978.
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Karaulov, A.G., Rudyak, I.N. Heat-resistant granular artifacts of yttrium oxide-stabilized zirconium dioxide. Refractories 19, 701–704 (1978). https://doi.org/10.1007/BF01285698
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DOI: https://doi.org/10.1007/BF01285698