Features are established for the occurrence of thermal processes, making it possible to control them, and use the data obtained in developing ceramic acid-resistant material firing regimes. The least coefficient of effective thermal conductivity of acid-resistant materials lies in a temperature range within which the intensity of physicochemical processes is more marked. These zones correspond to the most complex firing conditions, since the lower thermal conductivity, the slower an object heats up.
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References
E. S. Abdrakhimova and V. Z. Abdrakhimov, Physicochemical Processes During Firing of Acid-Resistant Materials [in Russian], Nedra, St. Petersburg (3003).
E. S. Abdrakhimova and V. Z. Abdrakhimov, “Study of acid-resistant material firing,” Ogneupory Tekhn. Keram., No. 1, 40 – 44 (2005).
E. S. Abdrakhimova and V. Z. Abdrakhimov, “Study of processes occurring during firing of acid-resistant materials,” Materialovedenie, No. 5, 41 – 44 (2006).
E. S. Abdrakhimova and V. Z. Abdrakhimov, “Processes that occur during firing of the argillaceous part of zircon-ilmenite gravitation tailings,” Refr. Ind. Ceram., 50(2), 101 – 106 (2009).
E. S. Abdrakhimova, “Effect of pyrophyllite on the physicochemical properties and acid resistance of acid-proof materials,” Refr. Ind. Ceram., 50(3), 174 – 177 (2009).
V. Z. Abdrakhimov, “Ecological and practical aspects of use of high-alumina petrochemical wastes in production of acid-resistant materials,” Refr. Ind. Ceram., 51(1), 52 – 55 (2010).
V. Z. Abdrakhimov and V. K. Semenychev, “Effect of high-alumina petrochemical waste on the structure of porous acid-resistant materials,” Novye Ogneupory, No. 9, 45 – 48 (2010).
V. Z. Abdrakhimov, A. I. Khlystov, and V. K. Semenychev, “Use of technogenic formations in the production of unfired refractory composites,” Refr. Ind. Ceram., 51(3), 212 – 218 (2010).
E. S. Abdrakhimova, “Physicotechnical studies of pyrophyllite of the Nikolsk deposit,” Refr. Ind. Ceram., 51(1), 6 – 8 (2010).
S. Zh. Saibulatov, S. T. Suleimenov, and A. V. Ralko, Ash-Ceramic Wall Materials [in Russian], Nauka, Almata (1982).
V. Z. Abdrakhimov, I. V. Kovkov, E. S. Abdrakhimova, and D. Yu. Denisov,” Experimental study of physicochemical processes during firing of composite ceramic materials,” Khim. Khim. Tekhnol., 50(9), 58 – 61 (2007).
V. Z. Abdrakhimov and E. S. Abdrakhimova, Chemical Technology of Ceramic Brick Using Technogenic Raw Material: Teaching Aid (Recommended by the Teaching Union of RF Higher Education in the Field of Construction as a Teaching Aid for Students Learning in Area 6535000 “Construction”) [in Russian], Samara State Arch.-Building Univ., Samara (2007).
V. Z. Abdrakhimov and E. S. Abdrakhimova, Physicochemical Processes of Structure Formation in Ceramic Materials Based on Nonferrous and Power Generation Waste [in Russian], Kaz. Gos. Tech. Univ., Ust’-Kamenogorsk (2000).
V. Z. Abdrakhimov, A. A. Burye, and E. S. Abdrakhimova, Bases of Glass technology [in Russian], Samara State Arch.-Building Univ., Samara (2005).
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Translated from Novye Ogneupory, No. 1, pp. 45 – 51, January, 2012.
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Abdrakhimova, E.S., Abdrakhimov, V.Z., Roshchupkina, I.Y. et al. Experimental study of physicochemical processes during firing of acid-resistant materials based on traditional natural materials and production wastes. Refract Ind Ceram 53, 40–45 (2012). https://doi.org/10.1007/s11148-012-9458-6
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DOI: https://doi.org/10.1007/s11148-012-9458-6