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Expansion of Raw Material Resources Base for Construction Ceramics

Number of journal: 12-2015
Autors:

Fomenko A.I.
Kaptyushina A.G.
Gryzlov V.S.

DOI: https://doi.org/10.31659/0585-430X-2015-732-12-25-27
УДК: 691.421

 

AbstractAbout AuthorsReferences
Issues of the expansion of a raw material resources base of production of ceramic brick with high physical-mechanical properties and small coefficient of heat conductivity due to the use of widespread large-tonnage waste of crushed brick which is formed when replacing the old brick masonry or crushing of rejected products are considered. The influence of an additive of this scrap to clay raw materials on technological properties of the raw masses intended for production of construction ceramic brick is investigated. Main physical-mechanical and heat-technical properties of ceramic crock making it possible to judge the possibility of using the crushed brick as anthropogenic raw materials for obtaining the ceramic brick are defined. Calculation of the economic effect of using the secondary raw materials in production leads to reduction in the prime cost of one ton of production in comparison with the current production.
A.I. FOMENKO, Doctor of Sciences (Engineering), (This email address is being protected from spambots. You need JavaScript enabled to view it.)
A.G. KAPTYUSHINA, Candidate of Sciences (Engineering), (This email address is being protected from spambots. You need JavaScript enabled to view it.)
V.S. GRYZLOV, Doctor of Sciences (Engineering), (This email address is being protected from spambots. You need JavaScript enabled to view it.)

Cherepovets State University (5, Lunacharsky Avenue, 162600, Cherepovets, Russian Federation)

1. Semyonov A.A. The State of the Russian Market of Ceramic Wall Materials. Stroitel’nye Materialy [Construction Materials]. 2014. No. 8, pp. 9–12. (In Russian).
2. Lisachuk G.V., Schukina L.P., Tsovma V.V., Belostotskaya L.A., Trusova Yu.D. Estimating the applicability of clay raw materials for wall and facing ceramics production. Steklo i keramika. 2013. No. 3, pp. 14–19. (In Russian).
3. Dovzhenko I.G. The influence of metallurgical slurries on drying behaviour of ceramic masses for lining brick production. Steklo i Keramika. 2013. No. 12, pp. 24–27.
4. Zubekhin A.P., Yatsenko N. D., Verevkin K.A. Keramichesky a brick on the basis of various clays: phase structure and properties. Stroitel’nye Materialy [Construction Materials]. 2010. No. 11, pp. 47–49. (In Russian).
5. Osipov V.I., Sokolov V.N. Gliny i ikh svoistva. Sostav, stroenie i formirovanie svoistv [Clays and their properties. Сomposition, structure and formation of properties]. Moscow.: GEOS. 2013. 576 p.
6. Ashmarin G.D., Kondratenko V.A., Lastochkin V.G., Pavlenko A.P. Ceramic Ecological Heat-Efficient Walls – the Reality of Contemporary Construction. Stroitel`nye Materialy [Constraction Materials]. 2011. No. 12, pp. 10–11. (In Russian).
7. Tkachev A.G., Yatsenko E.A., Smolii V.A. et al. Influence of coal-mining waste on the molding, drying and burning properties of ceramic masses. Tekhnika i tekhnologiya silikatov. 2013. No. 2, pp. 17–21. (In Russian).
8. Stolboushkin A.Yu., Berdov G.I., Stolboushkina O.V., Zlobin V.I. Firing temperature impact on structure forming in ceramic wall materials produced of fine dispersed iron ore enrichment wastes. Izvestija vuzov. Stroitel’stvo. 2014. No. 1, pp. 33–42. (In Russian).
9. Andrianov N.T., Balkevich V.L., Belyakov A.V., Vlasov A.S., Guzman I.Ya., Lukin E.S., Mosin Yu.M., Skidan B.S. Khimicheskaya tekhnologiya keramiki [Chemical engineering ceramics]. Moscow: OOO RIF «Stroimaterialy». 2011. 496 p.

For citation: Fomenko A.I., Kaptyushina A.G., Gryzlov V.S. Expansion of Raw Material Resources Base for Construction Ceramics. Stroitel’nye Materialy [Construction Materials]. 2015. No. 12, pp. 25-27. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2015-732-12-25-27


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