It was shown that ash-slag wastes from TPP can be used in the production of heat-insulating glass materials. Compositions with different granulometric composition of batch were developed and underwent heat-treatment. The primary properties of the synthesized samples were determined. The effect of the particle size on the foaming-up of granules was determined and the optimal dispersity of the batch found.
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References
E. A. Yatsenko, A. P. Zubekhin, V. A. Smolii, et al., “Resource-conserving technology of heat-insulation-decorative glass-composite material based on ash-slag wastes,” Steklo Keram., No. 6, 34 – 38 (2015); E. A. Yatsenko, A. P. Zubekhin, V. A. Smolii, et al., “Resource-conserving technology of heat-insulation-decorative glass-composite material based on ash-slag wastes,” Glass Ceram., 72(5 – 6), 216 – 219 (2015) .
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V. A. Smolii, E. A. Yatsenko, A. S. Kosarev, and B. M. Gol’tsman, “Development of compositions and technological parameters for the synthesis of cellular glass heat-insulating construction materials with prescribed density,” Steklo Keram., No. 6, 22 – 25 (2016); V. A. Smolii, E. A. Yatsenko, A. S. Kosarev, and B. M. Gol’tsman, “Development of compositions and technological parameters for the synthesis of cellular glass heat-insulating construction materials with prescribed density,” Glass Ceram., 73(5 – 6), 219 – 221 (2016).
Particle Size Conversion Table [Electronic resource]; URL: http://www.sigmaaldrich.com/chemistry/stockroom-reagents/learning-center/technical-library/ particle-size-conversion.html, free access.
This work was performed at NPI with financial support from the Russian Fundamental Research Foundation under contract No. 31 16-33-60136, dated December 2, 2015, as part of scientific project No. 16-33-60136 ‘Physical and chemical laws of obtaining silicate, multilayer, composite heat-insulating-decorative material,’ led by V. A. Smolii.
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Translated from Steklo i Keramika, No. 8, pp. 12 – 14, August, 2017.
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Smolii, V.A., Yatsenko, E.A., Gol’tsman, B.M. et al. Influence of Granulometric Composition of Batch on Technological and Physical-Chemical Properties of Granular Porous Silicate Aggregate. Glass Ceram 74, 270–272 (2017). https://doi.org/10.1007/s10717-017-9977-1
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DOI: https://doi.org/10.1007/s10717-017-9977-1