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Structure Formation in Cellular Glass Based on Novocherkassk CHPP Ash-Slag Wastes

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The compositions and technological parameters for the synthesis of cellular glass based on the ash-slag wastes from the Novocherkassk CHPP (heat-insulation layer of a multilayer silicate composite heat-insulation-decorative material) have been developed. DTA, XPA, and electronic microscopy were used to determine the physical and chemical regularities of the high-temperature formation of the structure of a porous heat-insulation layer of a multilayer silicate composite heat-insulation-decorative material.

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Change history

  • 09 February 2019

    The fourth author?s name should read B. M. Gol?tsman.

  • 09 February 2019

    The fourth author���s name should read B. M. Gol���tsman.

Notes

  1. Here and below, weight content, %.

References

  1. A. S. Kosarev, V. A. Smolii, E. A. Yatsenko, and B. M. Gol’tsman, “Technological features of the production of cellular glass used as a heat-insulating layer in silicate multi-layer composite heat-insulating and decorative material,” Tekh. Tekhnol. Silikatov, No. 4, 2 – 7 (2016).

  2. V. A. Smolii, E. A. Yatsenko, B. M. Gol’tsman, and A. S. Kosarev, “Influence of ash-slag materials on the temperature-time parameters of the synthesis of a heat-insulating silicate material,” Tekh. Tekhnol. Silikatov, No. 4, 25 – 29 (2016).

  3. V. A. Smolii, E. A. Yatsenko, A. S. Kosarev, and L. V. Klimova, “Study of the spectrophotometric characteristics of a decorative layer of a multi-layer silicate composite heat-insulating-decorative material,” Tekh. Tekhnol. Silikatov, No. 4, 23 – 28 (2017)

  4. V. A. Smolii, E. A. Yatsenko, B. M. Gol’tsman, and A. S. Kosarev, “Dependence of the heat-insulation and strength properties of lightweight concrete on the fractional composition of porous aggregate,” Ékol. Prom. Proizvod., No. 4, 13 – 15 (2017).

  5. E. A. Yatsenko, A. P. Zubekhin, V. A. Smolii, et al., “Resourceconserving 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).

  6. V. A. Smolii, A. S. Kosarev, E. A. Yatsenko, and B. M. Gol’tsman, “Development of the production technology of efficient energy-saving cellular heat-insulating building glass material,” Izv. Vyssh. Uchebn. Zaved., Sev.-Kavkaz. Reg., Ser. Tekhnich. Nauki, No. 4(185), 128 – 132 (2015).

  7. E. A. Yatsenko, V. A. Smolii, B. M. Gol’tsman, and A. S. Kosarev, “Study of macro- and microstructures of foam glass on the basis of TPP slag waste,” Izv. Vyssh. Uchebn. Zaved., Sev.-Kavkaz. Reg., Ser. Tekhnich. Nauki, No. 6, 127 – 130 (2012).

  8. V. A. Smolii, E. A. Yatsenko, B. M. Gol’tsman, and A. S. Kosarev, “Influence of granulometric composition of batch on technological and physical-chemical properties of granular porous silicate aggregate,” Steklo Keram., No. 8, 12 – 15 (2017); A. Smolii, E. A. Yatsenko, B. M. Gol’tsman, and A. S. Kosarev, “Influence of granulometric composition of batch on technological and physical-chemical properties of granular porous silicate aggregate,” Glass Ceram., 74(7 – 8), 270 – 272 (2017).

  9. V. A. Smolii, E. A. Yatsenko, A. S. Kosarev, and B. M. Gol’tsman, “Dependence of the rate of formation of the porous structure of an insulating silicate material on the content of ash-slag wastes,” Ékol. Prom. Proizvod., No. 3, 2 – 5 (2016).

  10. E. A. Yatsenko, A. P. Zubekhin, B. M. Gol’tsman, et al., “Investigation of the factors influencing the properties and structure of foamed slag glass,” Steklo Keram., No. 4, 3 – 6 (2014); E. A. Yatsenko, A. P. Zubekhin, B. M. Gol’tsman, et al., “Investigation of the factors influencing the properties and structure of foamed slag glass,” Glass Ceram., 71(3 – 4), 111 – 114 (2014).

  11. A. P. Zubekhin, S. P. Golovanova, E. A. Yatsenko, et al., Fundamentals of the Technology of Refractory Non-Metallic and Silicate Materials [in Russian], KARTÉK, Moscow (2010).

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This work was performed at YURGU(NPI) with financial support from the FGBU ‘Russian foundation for fundamental research’ under contract No. 31 16-33-60136, dated December 2, 2015, according to the scientific project No. 16-33-60136 ‘Physical-chemical rules for obtaining silicate multi-layer composite heat-insulation-decorative material’ (V. A. Smolii, project leader).

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Authors and Affiliations

  1. M. I. Platov South-Russia State Polytechnic University (NPI), Novocherkassk, Russia

    V. A. Smolii, A. S. Kosarev, E. A. Yatsenko & B. N. Gol’tsman

Authors
  1. V. A. Smolii
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  2. A. S. Kosarev
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  3. E. A. Yatsenko
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  4. B. N. Gol’tsman
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Corresponding author

Correspondence to V. A. Smolii.

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Translated from Steklo i Keramika, No. 8, pp. 20 – 24, August, 2018.

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Smolii, V.A., Kosarev, A.S., Yatsenko, E.A. et al. Structure Formation in Cellular Glass Based on Novocherkassk CHPP Ash-Slag Wastes. Glass Ceram 75, 303–307 (2018). https://doi.org/10.1007/s10717-018-0075-9

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  • DOI: https://doi.org/10.1007/s10717-018-0075-9

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