Abstract
The possibility of fabrication of glass-ceramic composite materials based on sitall glass of the SiO2-TiO2-Al2O3-CaO-BaO-B2O3 nonalkaline system and fillers-powdered industrial oxides with low sintering and crystallization temperatures and high wear resistance — was investigated. Industrial aluminum and titanium oxides were used as the fillers.
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I. D. Mackensie, “Ceramic cutting tools challenge hard metals,” Int. Refract. Hard Metals,7, No. 1, 8–12 (1988).
D. Cotto, “Les outils de coup en ceramique aux Etats Unis,” Int. Ceram., No. 5, 294–295 (1986).
W. Otto, “Evaluation of engineering ceramics for wear application,” Ceram. Soc.,38, No. 3, 473–474 (1955).
E. P. Dain and A. S. Bystrikov, “Study of composite material based on aluminum oxide and sitall microspheres,” in: Study of Mechanized Molding of Glass Articles [in Russian], Moscow (1989), pp. 83–88.
C. Rachman and B. Laura, “Mechanical properties and microstructure of whisker-reinforced alumina — 30 vol.% glass matrix composite,” Am. Ceram. Soc.,79, No. 9, 1636–1642 (1989).
N. M. Bobkova, O. S. Zalygina, and L. M. Silich, “Fabrication of wear-resistant glass-ceramic materials,” Vestsi Akad. Nauk BSSR, No. 3, 111–114 (1991).
L. I. Belyi and V. V. Koleda, “Strengthening of construction ceramics based on silicon nitride,” in: Proceedings of the All-Union Scientific-Technical Conference Reakhimtekhnika-3 [in Russian], Cherkassy (1989), pp. 38–41.
M. I. Buda and G. Portridge, “Investigation of the structure benari our of silicon carbide glass-ceramic composite,” in: Sci. Ceram. Proc. 14th Int. Canterbury (1987).
I. Cheng and D. Tompson, “ZrO2 tougher glass-ceramic composite prepared by a hotresing ront,” Silic. Ind.,56, No. 11–12, 210–222 (1991).
N. M. Bobkova and L. M. Silich, Nonalkaline Sitalls and Glass-Ceramic Materials [in Russian], Nauka i Tekhnika, Minsk (1992).
I. A. Manarov and I. A. Bulavin, “Synthesis of corundum ceramic with defined volume resistance,” Tr. Inta. MKhTI im. D. I. Mendeleeva,63, 141–145 (1969).
M. O. Ryazanova, I. A. Bulavin, and I. A. Manarov, “Selection of the glassy phase for synthesis of corundum ceramic with high thermal conduction,” Tr. Inta. MKhTI im. D. I. Mendeleeva,72, 85–88 (1973).
V. N. Filippovich, “Characteristics of crystallization of glasses in formation of sitalls,” in: Structural Transformations in Glasses at High Temperatures [in Russian], Moscow-Leningrad (1975), pp. 30–43.
R. Ya. Khodakovskaya, Chemistry of Titanium-containing Glasses and Sitalls [in Russian], Khimiya, Moscow (1978).
Z. Strand, Glass-Ceramic Materials [in Russian], Stroiizdat, Moscow (1988).
Dictionary-Handbook on Friction, Wear, and Lubrication of Machine Parts [in Russian], Kiev (1979).
I. V. Kragel'skii, M. A. Dobychin, and V. S. Katalov, Principles of Calculations for Friction and Wear [in Russian], Moscow (1968).
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Translated from Steklo i Keramika, Nos. 11–12, pp. 3–6, November–December, 1994.
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Bobkova, N.M., Barantseva, S.E., Gailevich, S.A. et al. Composite materials based on sitall glass and technical aluminum and titanium oxides. Glass Ceram 51, 335–339 (1994). https://doi.org/10.1007/BF00679809
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DOI: https://doi.org/10.1007/BF00679809