References
- I.J. McColm, Ceramic Science for Materials and Technologists, pp. 299–306, Chapman & Hall, New York (1983).
- J. Mori, Y. Toritani and S. Tanaka, “Development of Alumina Magnesia Castable for Steel Ladle,” pp. 171–78 in Proc. 5th Unified Intl. Tech. Conf. on Refractories, Vol. 3, UNITECR-95, Kyoto, Japan, November 19–22 (1995).
- P. Bartha, “The Properties of Periclase Spinel Bricks and its Service Stresses in Rotary Kilns,” Interceram Special Issue, p. 15 (1984).
- P. Kettner and G. Christ, “MA Spinel Brick in Glass Furnace Regenerators,” Radex Rundschau, 1, 3–11 (1986).
- G. Yamaguchi and M. Shibatsuji, “Test Manufacture of Spinel Refractories from Bauxite and Sea Water Magnesia,” J. Ceram. Assn. Japan, 62(691) 21–23 (1954).
- S. G. Mukherjee and B. N. Samaddar, “Spinel Formation from Coprecipitated Hydroxides of Aluminium and Magnesium,” Trans. Ind. Ceram. Soc., 25(1) 33–34 (1966).
- L. B. Carole, C. A. Natalie and G. R. Martins, “Sol-gel Synthesis of MgAl2O4 Spinel Powders for Optical Ceramics,” Ceram. Trans., IA, 211–17 (1988).
- H. Takeo and M. Junichi, “Formation of MgAl2O4 by Thermal Decomposition of Freeze Dried Sulfate,” Yogyo-Kyokai-shi, 89(6) 287–91 (1981).
- Y. Suyama and A. Kato, “Characterisation and Sintering of Mg- Al Spinel Prepared by Spray Pyrolysis Technique,” Ceram. Intl., 8(1) 17–21 (1982).
- E. Ryshkewitch, Oxide Ceramics, pp. 257–74, Academic Press, New York (1960).