A number of batch compositions based on quartz sand from the Chalganskoe deposit, opoka from the Botchinskoe deposit, slag from the Artem TPP, and diatomite from the Chernoyarskoe deposit were developed. The density and porosity of the synthesized samples were determined. Their microstructure was analyzed. Conclusions are drawn concerning the suitability of these raw materials for the synthesis of porous silicate materials (foam glass).
Similar content being viewed by others
References
V. I. Vereshchagin and S. N. Sokolova, “Effect of the technological parameters on the properties of granular porous crystal glass material based on zeolite-bearing rock,” Steklo Keram., No. 2, 6 – 9 (2009); V. I. Vereshchagin and S. N. Sokolova, “Effect of the technological parameters on the properties of granular porous crystal glass material based on zeolite-bearing rock,” Glass Ceram., 66(1 – 2), 46 – 49 (2009).
V. S. Bessmertnyi, N. I. Min’ko, N. I. Bondarenko, et al., “Evaluation of the competitiveness of wall building materials with glassy protective-decorative coatings obtained by plasma fusing,” Glass Ceram., No. 2, 3 – 8 (2015); V. S. Bessmertnyi, N. I. Min’ko, N. I. Bondarenko, et al., “Evaluation of the competitiveness of wall building materials with glassy protectivedecorative coatings obtained by plasma fusing,” Glass Ceram., 72(1 – 2), 41 – 46 (2015).
G. Brusatin, E. Bernardo, and G. Scarinci, “Production of foam glass from glass waste,” in: Proceedings of the International Conference on Sustainable Waste Management and Recycling: Glass Waste (2004), pp. 67 – 69.
V. A. Smolii, A. S. Kosarev, E. A. Yatsenko, and B. M. Gol’tsman, “Structure formation in cellular glass based on Novocherkassk CHPP ash–slag wastes,” Steklo Keram., No. 8, 20 – 24 (2018); V. A. Smolii, A. S. Kosarev, E. A. Yatsenko, and B. M. Gol’tsman, “Structure formation in cellular glass based on Novocherkassk CHPP ash–slag wastes,” Glass Ceram., 75(7 – 8), 303 – 307 (2018).
Y. Liu, W. Chen, and M. Liu, “The effect of foaming temperature on the foam glass by using waste glass,” Gongneng Cailiao (J. Func. Mater.), 47, 135 – 141 (2016).
E. A. Yatsenko, B. M. Gol’tsman, A. S. Kosarev, et al., “Synthesis of foamed glass based on slag and a glycerol pore-forming mixture,” Glass Phys. Chem., 44(2), 152 – 155 (2018).
E. A. Yatsenko, B. M. Gol’tsman, V. A. Smolii, et al., “Study on the possibility of applying organic compounds as pore-forming agents for the synthesis of foam glass,” Glass Phys. Chem., 45(2), 150 – 154 (2019).
V. A. Smolii, A. S. Kosarev, and E. A. Yatsenko, “The properties of tiles and porous filler from cellular glass based on ash-slag waste for energy-saving 3-ply panels,” Ekol. Prom. Proizvod., No. 4(108), 49 – 52 (2019).
V. A. Smolii, A. S. Kosarev, and E. A. Yatsenko, “Ash-slag based cellular glass for energy-efficient 3-ply construction panels,” Steklo Keram., No. 3, 28 – 32 (2019); V. A. Smolii, A. S. Kosarev, and E. A. Yatsenko, “Ash-slag based cellular glass for energy-efficient 3-ply construction panels,” Glass Ceram., 76(3 – 4), 105 – 108 (2019).
E. A. Yatsenko, B. M. Gol’tsman, L. V. Klimov, and L. A. Yatsenko, “Peculiarities of foam glass synthesis from natural silica-containing raw materials,” in: 2nd Journal of Thermal Analysis and Calorimetry Conference: Book of Abstracts (2019), pp. 74 – 75.
E. A. Yatsenko, B. M. Goltsman, A. V. Ryabova, et al., “Integrated protection of pipelines using silicate materials,” in: International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management (SGEM), 19(52), 507 – 514 (2019).
E. A. Yatsenko, V. A. Smolii, L. A. Yatsenko and N. S. Gol’tsman, “Physical and chemical researches of raw materials of the far east russia for synthesizing foam glass and protective enamel coatings on their basis,” Steklo Keram., No. 6, 41 – 45 (2019); E. A. Yatsenko, V. A. Smolii, L. A. Yatsenko and N. S. Golt’sman, “Physical and chemical researches of raw materials of the far east russia for synthesizing foam glass and protective enamel coatings on their basis,” Glass Ceram., 7(5 – 6), 235 – 238 (2019).
U. G. Distanov and V. P. Petrov, Raw Material Base of Siliceous Rocks of the USSR and Their Use in the National Economy [in Russian], Nedra, Moscow (1976).
V. A. Melent’ev (ed.), Handbook of the Compositions and Properties of Ash and Slag from TPP [in Russian], Énergoatomizdat, Leningrad (1985).
This work was performed at SRSPU (NPI) with financial support from the Russian Science Foundation under contract No. 18019-00455 ‘Development of a technology for comprehensive protection of oil and gas pipelines operated in Far East Russia’ (E. A. Yatsenko, leader).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Steklo i Keramika, No. 4, pp. 19 – 24, April, 2020.
Rights and permissions
About this article
Cite this article
Yatsenko, E.A., Smolii, V.A., Klimova, L.V. et al. Foam Glass Synthesis by the Hydrate Method Based on Different Natural Materials. Glass Ceram 77, 135–138 (2020). https://doi.org/10.1007/s10717-020-00256-x
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10717-020-00256-x