O.A. FOMINA1, Candidate of Sciences (Engineering);
V.V. SHEVCHENKO1, Engineer;
G.I. BERDOV2, Doctor of Sciences (Engineering);
M.S. DRUZHININ3 , Student (This email address is being protected from spambots. You need JavaScript enabled to view it.);
I.V. KAMBALINA1, Candidate of Sciences (Engineering)
1 Siberian State Industrial University (42, Kirov Street, Novokuznetsk, 654007, Russian Federation)
2 State University of Architecture and Civil Engineering (113, Leningradskaya Street, Novosibirsk, 630008, Russian Federation)
3 Saint-Petersburg State University of Architecture and Civil Engineering (4, 2-nd Krasnoarmeyskaya Street, Saint Petersburg 190005, Russian Federation)
2. Salakhov A.M., Morozov V.P., Lis O.N., Pasynkov M.V. Ceramic materials from low-melting clays modified by industrial wastes of enterprises of the petrochemical complex. Stroitel’nye Materialy [Construction Materials]. 2016. No. 12, pp. 46–50. (In Russian).
3. Klyavlin M.S., Klyavlina Ya.M., Samofeev N.S., Shildt L.A., Gaynanova E.S. Economic aspects of determining the cost of construction with the use of innovative materials. Naukovedenie. Internet Journal. 2017. No. 2, p. 27. (In Russian).
4. Yatsenko N.D., Zubehin A.P. Scientific bases of innovative technologies of ceramic bricks and the management of its properties depending on chemical and mineralogical composition of materials. Stroitel’nye Materialy [Construction Materials]. 2014. No. 4, pp. 28–31. (In Russian).
5. Kara-sal B.K., Biche-ool N.M. Improving the quality of bricks by combining clay formulations. Stroitel’nye Materialy [Construction Materials]. 2006. No. 2, pp. 54–55. (In Russian).
6. Kotlyar V.D., Terekhina Yu.V., Kotlyar A.V. Methods of testing lithoidal raw materials for producing wall ce- ramic products of compression molding (as a discussion). Stroitel’nye Materialy [Construction Materials]. 2014. No. 4, pp. 24–27. (In Russian).
7. Stolboushkin A.Yu., 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. 19–23. (In Russian).
8. Stolboushkin A.Yu., Storozhenko G.I. Production of frost-resistant ceramic brick of semidry pressing from industrial waste. Stroitel’nye Materialy [Construction Materials]. 2011. No. 12, pp. 4–7. (In Russian). м9. Stolboushkin A.Yu., Ivanov A.I., Permyakov A.A., Druzhinin S.V. Petrographic study of the ceramic brick structure produced from the waste of Korkinskiy coal open pit mine. Stroitel’nye Materialy [Construction Materials]. 2013. No. 4, pp. 49–53. (In Russian).
10. Alperovich I.A., Burmistrov V.N. Sposoby predotvrashcheniya vysolov na glinyanom kirpiche. Obzornaya informatsiya. [Ways to prevent salt formation on clay bricks. Overview information]. Moscow: VNIIMSM. 1977. 56 p.
11. Inchik V.V. Vysoly i solevaya korroziya kirpichnykh sten [Salt formation and salt corrosion of brick walls]. St. Petersburg: SPbGASU. 1998. 324 p.
12. Patent RF No.2500647, IPC С1 С 04 В 33/132. Syr’evaya smes’ dlya izgotovleniya stenovoi keramiki i sposob ee polucheniya [Feedstock mixture for the production of wall ceramics and the method of its production]. Stolboushkin A.Yu., Storozhenko G.I., Iva- nov A.I. and others. Declared 20.04.2012. Published 10.12.2013. Bulletin No. 34.
For citation: Stolboushkin A.Yu., Fomina O.A., Shevchenko V.V., Berdov G.I., Druzhinin M.S., Kambalina I.V. Research of exploitation properties of a ceramic brick of a matrix structure. Stroitel’nye Materialy [Construction Materials]. 2017. No. 9, pp. 9–13. DOI: https://doi.org/10.31659/0585-430X-2017-752-9-9-13. (In Russian).