AbstractAbout AuthorsReferences
The possibility of obtaining wall ceramics by semi-dry pressing from a two-component charge on the basis of low-quality low-melting alumina-silicate clay raw material – loam with the addition of 30% of the anthropogenic product of carbonate-containing drilling waste in the form of sludge. The results of studies of the effect of the grinding duration of raw materials on the dynamics of change in the granulometric composition of molding masses and the activation of carbonate-containing drilling waste during sintering when firing are presented. It is proved that the grinding duration of the charge components during 120 minutes makes it possible to obtain an optimal specific surface of the press powder of 2300–2400 cm2/g, the grain composition of the molding masses ensures the pressing of the raw product with the highest density and mechanical strength. When firing, the brick is formed with improved structural characteristics in relation to the basic factory product. The introduction of a carbonate-containing additive also reduces the firing temperature compared to the factory mode from 1100 to 1000оC.
V.V. DUBINETSKIY1, graduate student
V.A. GUR'EVA1, Doctor of Sciences (Engineerig) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
N.V. BUTRIMOVA2, Candidate of Sciences (This email address is being protected from spambots. You need JavaScript enabled to view it.)
V.A. GUR'EVA1, Doctor of Sciences (Engineerig) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
N.V. BUTRIMOVA2, Candidate of Sciences (This email address is being protected from spambots. You need JavaScript enabled to view it.)
1 Orenburg State University (13, Avenue Pobedy, Orenburg, 460018, Russian Federation)
2 Buzuluk Humanitarian-Technological Institute (branch) of OSU (35, Rabochaya Street, Buzuluk, Orenburg region, 461040, Russian Federation)
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2. Yacenko N.D., Zubekhin A.P., Rat’kova V.P. The influence of CaO on the structure and phase composition of ceramic tiles. Materials of the International scientific-practical conference. Rostov-on-Don: RSSU. 1997, pp. 47–48. (In Russian).
3. Gurieva V.A., Dubinetskiy V.V., Vdovin K.M., Butrimova N.V. Wall ceramic on the basis of highly calcined raw materials of Orenburzhye. Stroitel’nye Materialy [Construction Materials]. 2016. No. 12, pp. 55–58. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2016-744-12-55-59
4. Gurieva V.A., Dubineckij V.V., Butrimova N.V., Doroshin A.V., Vdovin K.M. Ecological and economic effect of the use of oil sludge in the production of ceramic bricks. Mezhdunarodnyj nauchno-issledovatel’skij zhurnal. 2016. No. 11, pp. 50–52. (In Russian).
5. Gurieva V.A., Doroshin A.V., Andreeva Yu.E. Wall ceramics based on low-grade aluminosilicate raw materials and anthropogenic additives. Promyshlennoe i grazhdanskoe stroitel’stvo. 2017. No. 11, pp. 50–55. (In Russian).
6. Guryeva V.A., Doroshin A.V., Dubinetskij V.V. Sludge of the fuel-energy and oil-producing complex in the production of wall ceramic products. Materials Science Forum Submitted «FarEastCon-2018»: 2018-10-19. Vol. 945, pp 1036–1042.
7. Pavlov V.F. Influence of alkali, alkaline-earth oxides and their mixtures on the change in viscosity of ceramic masses during their firing. Tr. NIIStrojkeramiki. 1973. No. 38, pp. 20–26. (In Russian).
8. Chumachenko N.G., Tyurnikov V.V. The possibility of the formation of solid solutions during the firing of ceramic materials. Gradostroitel’stvo i arhitektura. 2016. No. 2 (23), pp. 43–47. (In Russian).
9. Ovchinnikov N.L., Arbuznikov V.V., Kapinos A.P. et al. Effect of mechanical activation of montmorillonite on the intercalation efficiency of polyhydroxyaluminum cations in the formation of pillar structure. Nanotechnologies in Russia. 2015. Vol. 10. Iss. 3–4, pp. 254–260. (In Russian).
10. Vasyanov G.P., Gorbachev B.F., Krasnikova E.V., Sadykov R.K., Kabirov R.R. Clay fusible ceramic raw materials of the Republic of Tatarstan (the state of the raw material base and experience in applying light-crystalline polymine clays). Georesursy. 2016. pp. 44–49. (In Russian).
11. Patent RF 2014136 Sposob vikhrevogo izmel’cheniya materiala [The method of vortex grinding material]. Ahramovich A.P., Kolos V.P., Malyshev A.A., Sorokin V.N. 1995. Byul. No. 4. 34 p. (In Russian).
12. Yatsenko N.D. Zubekhin A.P., Rat’kova V.P. Low-shrinkage ceramic tiles. Glass and Ceramics. 1998. Vol. 55. No. 7–8, pp. 255–257.
13. Stolboushkin A.Y., Berdov G.I., Vereshchagin V.I., Fomina O.A. Ceramic wall materials with matrix structure based on non-sintering stiff technogenic and natural raw materials. Stroitel’nye Materialy [Construction materials]. 2016. No. 8, pp. 19–24. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2016-740-8-19-24
14. Storozhenko G.I., Zavadskij V.F., Boldyrev G.V. The influence of the degree of dispersion of clay raw materials on its structure and technological properties. Izvestiya vuzov. Stroitel’stvo. 1998. No. 7, pp. 51–54. (In Russian).
For citation: Dubinetskiy V.V., Gur'eva V.A., Butrimova N.V. Features of preparation of charge with addition of carbonate-containing waste of drilling in production of ceramic bricks based on loam. Stroitel’nye Materialy [Construction Materials]. 2019. No. 4, pp. 12–17. DOI: https://doi.org/10.31659/0585-430X-2019-769-4-12-17 (In Russian).