Organization of technical ceramics production for the machine‑building industry and prospects for the use of the raw material base of the Republic of Belarus
https://doi.org/10.21122/1683-6065-2026-1-104-109
Abstract
The article presents the results of studies on ceramic materials obtained from compositions including domestic clay raw materials, based on the systems MgO – Al2O3 – SiO2; CaO – SiO2; Al2O3 – SiO2 for the mechanical engineering, metallurgical, machine tool, and other industries related to the processing of metals and their alloys; it provides information confirming the prospects of using domestic raw materials for the production of technical ceramics.
About the Authors
R. Ju PopovBelarus
13A, Sverdlova str.
Minsk
F. I. Panteleenko
Belarus
65, Nezavisimosti ave.
Minsk
panteleenkofi@bntu.by
А. N. Shimanskaya
Belarus
13A, Sverdlova str.
Minsk
E. O. Bogdan
Belarus
13A, Sverdlova str.
Minsk
A. S. Samsonova
Belarus
13A, Sverdlova str.
Minsk
I. R. Gula
Belarus
Gomel region
Loyev
59, Batova str.
References
1. Poleznyye iskopayemyye Belorussii: K 75-letiyu BelNIGRI [Useful Fossils of Belarus: On the 75th Anniversary of BelNIGRI]. Minsk, Adukatsyya i vykhavanne Publ., 2002, 528 p.
2. Makhnach A.A. Vvedeniye v geologiyu Belarusi [Introduction to the Geology of Belarus]. Minsk, In‑t geol. nauk NAN Belarusi Publ., 2004, 198 p.
3. Makhnach A.A. Osnovy geologii Belarusi [Fundamentals of Geology of Belarus]. Minsk, In‑t geol. nauk NAN Belarusi Publ., 2004, 392 p.
4. Eminov A. M. [et al.] Issledovaniya kinetiki sinteza i osobennosti tverdofaznogo obrazovaniya mullita [Studies of the kinetics of synthesis and features of solid‑phase formation of mullite]. Novyye ogneupory = New refractories, 2021, no. 7, pp. 16–20.
5. Panteleyenko F. I., Popov R. J., Shimanskaya A. N. [et al.] Osobennosti proizvodstva tekhnicheskoy keramiki dlya teplovykh agregatov metallurgi‑cheskoy otrasli [Features of the production of technical ceramics for thermal units of the metallurgical industry]. Lit’ye i metallurgiya = Foundry production and metallurgy, 2025, no. 1, pp. 67–72.
6. Matrenin S. V., Slosman A. I. Tehnicheskaja keramika [Technical ceramics]. Tomsk, TPU Publ., 2004, 75 p.
7. Strelov K. K. Teoreticheskie osnovy tehnologii ogneupornyh materialov [Theoretical foundations of technology of refractory materials]. Moscow, Metallurgija Publ., 1985, 480 p.
8. Rouchk G., Vutnau H. (ed.) Ogneupornye materialy. Struktura, svojstva, ispytanija: sprav. [Refractory materials. Structure, properties, tests: manual]. Moscow, Intermet Inzheiniring Publ., 2010, 391 p.
9. Shmuradko V. T., Roman O. V., Panteleenko F. I. [et al.] Tehnicheskaja keramika: materialovedchesko‑tehnologicheskie principy i mehanizmy razrabotki i realizacii keramicheskih jelektroizoljatorov razlichnogo nauchno‑prakticheskogo naznachenija [Technical ceramics: materials science and technology principles and mechanisms for the development and implementation of ceramic electrical insulators for various scientific and practical purposes]. Novye ogneupory = New refractories, 2020, no. 9, pp. 14–24.
10. Shmuradko V. T., Panteleenko F. I., Reut O. P., Rudenskaja N.A., Panteleenko E. F. Sposob poluchenija iznosostojkogo keramicheskogo materiala na osnove oksida aljuminija [Method for producing wear‑resistant ceramic material based on aluminum oxide]. Patent BY, no 23555 V35/04S1, V35/645S1; zajavitel’ BNTU; zajavka no. a 20180517 ot 14.12.2018; opubl. 30.10.2021.
11. Avakumov G. N., Gusev A.A. Kordierit – perspektivnyj keramicheskij material [Cordierite is a promising ceramic material]. Novosibirsk, Nauka Publ., 1999, 167 p.
12. Balkevich V. L. Tehnicheskaja keramika [Technical ceramic]. Moscow, Stroyizdat Publ., 1984, 256 p.
13. Popov R. Ju. Termostojkie keramicheskie kordieritsoderzhashhie materialy s ponizhennoj temperaturoj spekanija: dis. … kand. tehn. nauk [Heat‑resistant ceramic cordierite‑containing materials with low sintering temperature: Ph. D. in Enginering diss.]. Minsk, 2011. 180 p.
14. Tereshchenko I. M., Popov R. Yu., Kravchuk A. P. [et al.] Use of unconventional initial materials to obtain heat‑proof ceramic. Glass and Ceramics, 2009, vol. 66, no. 3–4, pp. 129–131.
15. Popov R. Ju., Gula I. P., Djatlova E. M. [et al.] Perspektivy ispol’zovanija glinistogo syr’ja mestorozhdenija «Krupejskij sad» dlja poluchenija termostojkih keramicheskih izdelij [Prospects for the use of clay raw materials from the Krupeysky Sad deposit for the production of heat‑resistant ceramic products]. Steklo i keramika = Glass and Ceramics, 2021, no. 9, pp. 24–32.
Review
For citations:
Popov R.J., Panteleenko F.I., Shimanskaya А.N., Bogdan E.O., Samsonova A.S., Gula I.R. Organization of technical ceramics production for the machine‑building industry and prospects for the use of the raw material base of the Republic of Belarus. Litiyo i Metallurgiya (FOUNDRY PRODUCTION AND METALLURGY). 2026;(1):104-109. (In Russ.) https://doi.org/10.21122/1683-6065-2026-1-104-109
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