Abstract
The present state of production of heat-resistant refractory technical ceramics is described. The optimum synthesis conditions and the properties of mullite-tialite ceramic materials based on chemically precipitated mixtures are identified.
Similar content being viewed by others
REFERENCES
F. A. Matveeva and M. M. Dosik, “The effect of titanium dioxide on sintering and phase transformations of kaolinite in heating,” in: Physicochemical Studies of Aluminosilicate and Zirconium-Bearing Systems and Materials [in Russian], Nauka, Novosibirsk (1972), pp. 23–37.
H. Morishima, Z. Kato, K. Uematsu, K. Saito, et al., “Development of aluminium titanate-mullite composite having high thermal shock resistance,” J. Am. Ceram. Soc., 69(10), 226–227 (1986).
N. M. Bobkova, E. M. Dyatlova, and I. V. Kavrus, “Heat-resistant and high-strength ceramics based on the Al2O3 – TiO2 – SiO2 system,” Steklo Keram., Nos. 1 – 2, 24–26 (1996).
M. Preda M. and E. Tudorache, “Mase ceramice cu tialit in sistemul ternary Al2O3 – SiO2 – TiO2,” Mater. Constr., 25(2), 110–114 (1995).
N. M. Bobkova, E. M. Dyatlova, and T. N. Yurkevich, “A study of sintering of refractory materials based on the Al2O3 – SiO2 – TiO2 system,” in: Glass, Glass Ceramics, and Silicates, Coll. Papers, Issue 13 [in Russian], Vyssha Shkola, Minsk (1984), pp. 87–92.
E. M. Dyatlova, N. M. Bobkova, V. N. Samuilova, et al., “Heatresistant building ceramics based on the aluminotitanium-silicate system,” Steklo Keram., No. 8, 18–20 (1988).
N. M. Bobkova, E. M. Dyatlova, V. N. Samuilova, et al., “The effect of the sintering temperature on mineral formation and some properties of materials in the Al2O3 – SiO2 – TiO2 system,” in: Glass, Glass Ceramics, and Silicates, Coll. Papers, Issue 13 [in Russian], Vyssha Shkola, Minsk (1984), pp. 74–77.
A. A. Dabizha, N. A. Dabizha, V. S. Yakushkina, et al., “A study of thermomechanical properties of ceramics in the Al2O3 – TiO2 and Al2O3 – TiO2 – mullite systems,” Ogneupory, No. 2, 22–26 (1988).
L. M. Saltevskaya, “Thermogravimetric evaluation of the efficiency of using combined sintering intensifiers,” Steklo Keram., No. 2, 22–24 (1988).
L. J. Kim, W. Krunert, and C. Zorgafou, “Synthesis and characterization of submicrometer, monosized ceramic powders of aluminium titanate-mullite composite by sol-gel process,” in: Mat. Tech'90: Ist. Eur. East-West Symp. Mater. and Process., Helsinki (1990), p. 62.
N. M. Bobkova and N. F. Popovskaya, “Synthesis of tialite ceramics using the method of heterogeneous precipitation,” Steklo Keram., No. 12, 16–20 (2000).
N. M. Bobkova and N. F. Popovskaya, “Production of highmelting crystalline phases by the method of chemical precipitation from solutions,” in: Nanostructural Materials: Production and Properties, Proceed. of Seminar “Nanostructural Materials-2000: Belarus – Russia” [in Russian], Minsk (2000), pp. 92–94.
N. F. Popovskaya, “A decrease in the temperature of synthesis of tialite ceramics,” in: Resource-Saving Technologies: Recycling and Saving of Power and Materials, Proceed. of IV Internat. Sci. Conf. [in Russian], Grodno (2000), pp. 175–176.
N. F. Popovskaya, “Energy-saving technology of synthesis of aluminum titanate,” in: Resource and Energy-Saving Technologies in Chemical and Petrochemical Industry, Proceed. of Internat. Sci. Conf. [in Russian], Minsk (1998), pp. 92–94.
N. M. Bobkova, I. V. Kavrus, E. V. Radion, and N. F. Popovskaya, “Formation of mullite produced by the coprecipitation method,” Steklo Keram., No. 6, 18–20 (1998).
N. M. Bobkova, I. V. Kavrus, N. F. Popovskaya, and E. V. Radion, “Process of phase formation in coprecipitated aluminosilicate batches,” Vesti Natsional. Akad. Nauk Belarusi, Ser. Khim. Nauk, No. 2, 118–121 (1999).
N. M. Bobkova, I. V. Kavrus, N. F. Popovskaya, and E. V. Radion, “Phase formation in coprecipitated aluminosilicate batches,” in: High-temperature chemistry of silicates and oxides, Proceed. of VII Int. Conf. [in Russian], St. Petersburg (1998), p. 68.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Popovskaya, N.F., Bobkova, N.M. Mullite-Tialite Ceramic Materials Based on Chemically Precipitated Mixtures (A Review). Glass and Ceramics 59, 234–236 (2002). https://doi.org/10.1023/A:1020979228914
Issue Date:
DOI: https://doi.org/10.1023/A:1020979228914