English
Русский 13-23 p.
Abstract: the research uses some methods for determining materials, strictly applying the current standards and requirements of the Russian Federation. The degree of scientific development of this research is that specialists of the Department of Engineering Physics and Materials Physics of Engineering Faculty of Bashkir State University and the laboratory of JSC "Ceramics" of the Republic of Bashkortostan conducted research in the field of ceramic materials science for construction purposes. The methodological basis of the research is based on well-known methods of studying the structure of clay raw materials suitable for the production of construction products, with the choice of a stable light range of products and eliminates cracking in the technological process of brick production. The correct composition leads to a reduction in energy consumption without compromising the physical and mechanical characteristics of products.
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2. Evtushenko E.I., Kravtsov E.I., I.Yu. Kashcheeva, Sysa O.K. Structural instability of argillaceous material. Glass and ceramics. 2004. 61 (5-6). P. 157 – 159.
3. Levien L., Prewitt C.T., Weidner DJ. Structure and elastic properties of quartz at pressure. American Mineralogist. 1980. 65. P. 920 – 930.
4. Pivinskii Yu.E. Highly concentrated ceramic binder suspensions (HCBS). Raw materials, properties, and classification (Review). Refractories and Industrial Ceramics. 1987. 28 (3-4). P. 179 – 191.
5. Pivinskii Yu.E. Highly concentrated ceramic bonding suspensions. Mechanism of structure formation and the kinetics of casting-up of the body with partial dewatering. Refractories and Industrial Ceramics. 1988. 29 (7-8). P. 463 – 470.
6. Vereshchagin V.I., Buruchenko A.E., Menshikova V.K., Mogilevskaya N.V. Ceramic materials based on diopside. Glass and Ceramics. 2011. 67 (11-12). P. 343 – 346.
7. Adylov G.T. Perspektivy rasshireniya syr'evoj bazy dlya keramicheskogo proizvodstva. Steklo i keramika. 2010. 2. P. 29 – 31. (rus.)
8. Bakunov V.S. Vysokotemperaturnaya polzuchest' ogneupornoj keramiki. Kinetika i vliyanie uslovij ispytanij. Ogneupory. 1994. 6. S. 28. (rus.)
9. Bakunov V.S., Lukin E.S. Intensifikaciya processa spekaniya polikristallicheskoj oksidnoj keramiki. Novye ogneupory. 2015. 6. P. 32 – 36. (rus.)
10. Buruchenko A.E., Men'shikova V.K. Primenenie novogo sovremennogo vida syr'ya v proizvod-stve keramicheskoj plitki. Sovremennye materialy, tekhnika i tekhnologiya: materialy 4-j Mezhdunar. nauch.-praktich. konf. (25-26 dekabrya 2014 goda). redkol. A.A. Gorohov; YUgo-Zap.gos. un-t, ZAO «Universitetskaya kniga». Kursk. 2014. P. 102 – 104. (rus.)
11. Vereshchagin V.I., Mogilevskaya N.V. Perspektivy razvitiya promyshlennosti tonkoj i stroitel'noj keramiki. Regional'nye proizvoditeli: ih mesto na sovremennom rynke tovarov i uslug: materialy 3 Mezhregion. nauch.-prakt. konf. Krasnoyarsk, 2007. P. 7 – 9. (rus.)
12. Efimov A.I., ZHukova E.M., Varlamov V.P. Effektivnost' dejstviya mineralizuyushchih dobavok. Stroitel'nye materialy. 1984. 7. P. 24 – 25. (rus.)
13. Osobennosti i etapy razvitiya proizvodstva keramicheskih izdelij na predpriyatii OAO «Keramika». V trudah Vserossijskoj nauchno-prakticheskoj konferencii (s mezhdunarodnym uchastiem) «Aktual'nye voprosy mashinostroeniya». Noyabr' 2019 g. (rus.)
14. Poznyak A.I., Levickij I.A., Baranceva S.E. O povyshenii mekhanicheskoj prochnosti keramicheskih plitok na stadiyah pressovaniya i sushki. Tekhnika i tekhnologiya silikatov. 2014. 21 (1). P. 2 – 6. (rus.)
15. Tekhnologiya kompozicionnoj keramiki v materialovedenii: materialy zaoch. vseros. konf. nauch. red. U.SH. SHayahmetov. Ufa: Vagant, 2008. 153 p. (rus.)
16. Tyul'kin D.S., Pletnyov P.M., Nepochatov YU.K. Ogneupory dlya proizvodstva tekhnicheskoj keramiki. Vestnik SGUPS. 2014. 30. P. 111 ‒ 119. (rus.)
17. SHil'cina A.D., Vereshchagin V.I., Selivanov YU.V., Korol'kov N.N. Vybor komponentov keramicheskih mass s uchetom fazovo-mineral'nogo sostava i termofizicheskih harakteristik. Stroitel'nye materialy. 2007. 9. P. 7 – 10. (rus.)
Batrshina G.S., Davletshina A.D. Research on the structure of clay raw materials for ceramic products. Construction Materials and Products. 2020. 3 (4). P. 13 – 23. https://doi.org/10.34031/2618-7183-2020-3-4-13-23