The results of a study of the properties of heat-efficient ceramic materials made from unconditioned clayey raw material and microgranules of foam glass as a porizing, thinning component are presented. The foam glass microgranules shorten the drying process and promote firing temperature reduction. The structural and textural particularities of the obtained heat-efficient materials and their effect on the physical and mechanical properties are studied.
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Strategy for the Growth of the Building Materials Industry in the Period up to 2020 and in Subsequent Future to 2030 [in Russian], approved by directive No. 868-r of the government of the Russian Federation on May 2016; URL: http://www.garant.ru/products/ipo/prime/doc/71294822/#0
I. A. Ivleva and I. I. Nemets, “Structural and textural characteristics of a heat-efficient composite material based on clays with different mineralogical composition,” Steklo Keram., No. 3, 17 – 21 (2015); I. A. Ivleva and I. I. Nemets, “Structural and textural characteristics of a heat-efficient composite material based on clays with different mineralogical composition,” Glass Ceram., 72(3 – 4), 92 – 95 (2015).
P. V. Besedin, I. A. Ivleva, and V. I. Mos’pan, “Heat-efficient composite wall material,” Steklo Keram., No. 3, 24 – 25 (2005); P. V. Besedin, I. A. Ivleva, and V. I. Mos’pan, “Heat-efficient composite wall material,” Glass Ceram., 62(3 – 4), 87 – 88 (2005).
GOST 33676–2015: Materials and Articles Made from Foam Glass and Heat-Insulated for Buildings and Structures. Classification: Terms and Definitions [in Russian], Standardtinform, Moscow (2016).
G. D. Ashmarin, A. M. Salakhov, N. V. Boltakova, et al., “Effect of the pore space on the strength of ceramics,” Steklo Keram., No. 8, 23 – 25 (2012); G. D. Ashmarin, A. M. Salakhov, N. V. Boltakova, et al., “Effect of the pore space on the strength of ceramics,” Glass Ceram., 69(7 – 8), 267 – 269 (2012).
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Translated from Steklo i Keramika, No. 3, pp. 19 – 22, March, 2018.
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Ivleva, I.A., Panova, O.A. Technological Methods of Obtaining Heat-Efficient Ceramic Materials from Unconditioned Clayey Raw Material. Glass Ceram 75, 98–101 (2018). https://doi.org/10.1007/s10717-018-0036-3
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DOI: https://doi.org/10.1007/s10717-018-0036-3