Abstract
This work represents the results of oxygen redistribution studies at quantitative and isotopic levels in synthesis and thermal treatment of ZrO - (0 to 35 mol %) Y2O3 solid solution crystals. The crystals were grown by directed melt crystallization method in a cold container using direct high-frequency heating. The crystal oxygen content and isotopic composition data was collected with respect to stabilizer concentration and technological conditions of synthesis. The temperature and frequency relationships of crystal electroconductivity were also studied. Some strength and tribological characteristics of the given materials were represented. The solid state formation by directional melt crystallization was shown to involve oxygen isotopic exchange interaction between the melt, growing crystal, and gas phase.
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Platzer, R., Karapetrova, E., Zocate, M.O., Gardner, J.A., Sommers, J.A., and Evenson, W.E., Oxygen Vacancies in Zirconia, Material Science Forum, 1997, vol. 57, p. 239.
Kuz’minov, Yu.S., Lomonova, E.E., and Osiko, V.V., Tugoplavkie materially iz kholodnogo tiglya (Refractory Materials from Cold Crucible), Moscow: Nauka, 2004.
Borik, M.A., Vishnyakova, M.A., Zhigalina, A.V., Kulebyakin, A.V., Lavrishchev, S.V., Lomonova, E.E., and Osiko, V.V., Tez. dokl. na XII Natsional’noi konferentskii po rostu kristallov - NKRK 2006 (Abstracts of Papers, XII National Crystal Growth Conference NCGC 2006), Moscow, Institute of Crystallography, Russian Academy of Sciences, 2006, p. 40.
Sukhoverkhov, V.F., Ustinov, V.I., and Grinenko, V.A., USSR Inventor’s Certificate no. 787360, 1982.
Borshchevskii, Yu.A., Amosova, Kh.B., Borisova, S.L., and Medvedovskaya, N.I., USSR Inventor’s Certificate no. 973312, 1982.
Frolov, K.V., Osiko, V.V., Alisin, V.V., Vishnyakova, M.A., Ignat’eva, E.E., Lomonova, E.E., Mel’shanov, A.F., Moskvitin, V.G., Pavlov, V.G., and Pugachev, M.S., Problemy Mashinostroeniya i Nadezhnost’ Mashin (Machine Building Problems and Machine Reliability), 2006, no. 4, p. 3.
Kortov, V.S., Polezhaev, Yu.M., Gaprindashvili, A.I., and Shalyapin, A.L., Izv. Akad. Nauk SSSR, Neorgan. Mater., 1975, vol. 11, p. 257.
Aleksandrov, V.I., Abramov, N.A., Vishnyakova, M.A., Kalabukhova, V.F., Lomonova, E.E., Miftyakhetdinova, N.R., and Osiko, V.V., Izv. Akad. Nauk SSSR, Neorgan. Mater., 1983, vol. 19, p. 100.
Alisin, V.V., Amosova, Kh.B., Voitsitskii, V.P., Voronov, V.V., Grinenko, V.A., Lomonova, E.E., Medvedovskaya, N.I., and Ustinov, V.I., Tr. Mezhdunar. nauch.-prakt. konf. po persperktivnym kompositsionnym materialam “Nanokompozity-2004 (Proc. Int. Sci. & Pract. Conf. on Promising Composite Materials Nanocomposites 2004), ser. Kosmicheskii vyzov XXI veka (XXI Century Space Challenge), vol. 2 Persperkivnye materialy i tekhnologii: nanokomposity (Promising Materials and Technologies: Nanocomposites), Moscow: TORUS Press, 2006, p. 183.
Alisin, V.V., Borik, M.A., Kulebyakin, A.V., and Lomonova, E.E., in Keramika i kompositsionnye materially (Ceramics and Composite Materials), Dokl. VI Vseros. nauch. konf. (Proc. VI All-Russian Scientific Conference), Syktyvkar: Komi NTs UrO RAN, 2007, p. 5.
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Original Russian Text © A.V. Kulebyakin, E.E. Lomonova, N.I. Medvedovskaya, A.V. Shcherbakov, 2009, published in Elektrokhimiya, 2009, Vol. 45, No. 4, pp. 473–479.
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Kulebyakin, A.V., Lomonova, E.E., Medvedovskaya, N.I. et al. Oxygen redistribution in ZrO2-Y2O3 system. Russ J Electrochem 45, 444–449 (2009). https://doi.org/10.1134/S1023193509040144
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DOI: https://doi.org/10.1134/S1023193509040144