Compositions of masses using quartz-feldspar raw materials of Ukraine in the presence of mineralizing oxides have been developed. The introduction of the developed energy-saving technology of household porcelain will significantly reduce the energy consumption of production and shorten the firing cycle.
Maslennikova G.N. Physicochemical processes of porcelain structure formation. I. V. Grebenshchikova. L .: Nauka, 1989.304 p. (Chemistry and technology of silicate and refractory non-metallic materials).
Ryschenko M. I., Fedorenko E. Yu., Chirkina M. A. et al. Microstructure and properties of low-temperature porcelain // Glass and ceramics. 2009. N 11. S. 26 - 29.
Ryshchenko MI, Fedorenko E. Yu., Chirkina MA et al. Microstructure and properties of lower-temperature porcelain // Glass and Ceram. 2009. V. 66. N 11 - 12. P. 393 - 396.
Emchenko IV Features of improving the properties of ceramic products by intensifying their sintering processes. Lvov: Lviv Commercial Academy, 2006.244 p.
Zevin L.S., Zavyalova L.L. Quantitative X-ray Phase Analysis. Moscow: Nedra, 1974.184 p.
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