Steklo i Keramika (Glass and Ceramics). Monthly scientific, technical and industrial journal

 

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Use of aluminous waste from nonferrous industry in ceramic clinker production

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Autors: Kaikarbaev A. K., Abdrakhimova E. S., Abdrakhimov V. Z.
  • Continuous numbering: 1063
  • Pages: 35-39
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Heading: Utilization of waste

Compositions of ceramic masses for the production of clinker products based on unenriched kaolin and nanotechnogenic raw materials in the form of alkaline etching sludge of aluminum and its alloys of the Samara Metallurgical Plant have been developed. Clinker ceramic products have been developed that differ from other ceramic materials in higher mechanical strength and other physical and mechanical indicators.
Cand. physical-mat. Sciences A. K. KAYRAKBAEV 1 ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ), Cand. tech. E. S. ABDRA-KHIMOVA 2 , Dr. Tech. Sciences V. Z. ABDRAKHIMOV 3 ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ); 1 Kazakh-Russian International University (Kazakhstan, Aktobe) 2 Samara State Aerospace University named after acad. S. P. Koroleva (National Research University named after academician S. P. Korolev) (SSAU) (Russia, Samara) 3 Samara State University of Economics (Russia, Samara)
Pat. ? 2574438 RU C04В 33/132. Ceramic mass for the manufacture of clinker ceramic products / E. S. Abdrakhimova, V. Z. Abdrakhimov. Patentee: Samara State Aerospace University. Submission date 2010.06.23. Publ. 27.02.2012 // Bul. 2012.? 4. Kulikov VA, Kovkov IV, Abdrakhimov VZ Clinker brick based on unenriched kaolin and alkaline etching sludge. Glass and ceramics. 2011.? 1.S. 21? 23. VA, Kovkov IV, Abdrakhimov VZ Clinker brick based on crude kaolin and sludges from alkali etching // Glass and Ceram. 2011. V. 68. N 1? 2. P. 22? 24.] Abdrakhimova ES, Abdrakhimov VZ On the use of aluminum-containing nanotechnogenic raw materials in the production of ceramic composite materials // Materials Science. 2014.? 12, p. 44? 52. Abdrakhimov V. Z., Roshchupkina I. Yu., Abdrakhimova E. S., Kairakbaev A. K. Heat-resistant composite based on phosphate binders and high-alumina waste // Izvestiya vuzov. Construction. 2015.? 8, p. 33? 40. Elstner L., Jeschke P., Kronert W., Protogerakis E. Thermoschockverhalten Feuerfester Baustoffe aus Zirkoniumdioxid. Teil III // Experimentelle Untersuchunden, Sprechsaal. 1982. N 115. P. 542? 556. Kingery WD Factors affecting Thermal Stress Resistance of Ceramic Materials // Journal of American Ceramic Society. 1955. N 38. P. 542? 556. Hasselman DPH Unifed Theory of Thermal Shock Fracture Initiation and Crack Propagation in Brittle Ceramics // Journal of American Ceramic Society. 1969. N 52. P. 600? 604. GOST 473.1? 81. Chemical and heat-resistant ceramic products. Method for determination of acid resistance. M., 1981. Budnikov P. P., Balkevich V. L., Berezhnoy A. S. et al. Chemical technology of ceramics and refractory materials. Moscow: Stroyizdat, 1972.553 p.

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Keywords

clinker products, raw kaolin, alkaline pickling sludge, industrial waste, nanotechnological raw materials, chemical composition, physical and mechanical parameters

Use the reference below to cite the publication

Kaikarbaev A. K., Abdrakhimova E. S., Abdrakhimov V. Z. Use of aluminous waste from nonferrous industry in ceramic clinker production. Steklo i keramika. 2016:89(7):35-39. (in Russ). UDK 66.3:691.42:504.2
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Editor-in-chief

Lyudmila Vladimirovna Sokolova