Processes occurring during the synthesis of wollastonite‑containing refractory used in non‑ferrous metallurgy

This article presents the results of research on the processes occurring during the synthesis of wollastonite‑containing ceramics obtained from various clay components. The peculiarities of crystalline phase formation in the material are described. The obtained information lays the foundation for the organization of ceramic production that is in demand in the metallurgical industry.

1. Matrenin S. V., Slosman A. I. Tehnicheskaja keramika [Technical ceramics]. Tomsk: TPU Publ., 2004, 75 p.

2. Panteleyenko F., Kuczumow A., Sieniawski J. [et. al]. Mechanisms of technical ceramic density adjusting. Innovations in Mechanical Engineering: X international scientific and practical conference (ISPCIME‑2019). Kemerovo, 2019, pp. 1–9.

3. Pantsialeyenka F., Kuczumov A., Shmuradko V., Pantsialeyenka K. Oxide ceramic and refractory materials for metallurgical processes and industries. The 73rd Word Foundry Congress. Krakow, 2018, pp. 465–466.

4. Strelov K. K. Teoreticheskie osnovy tehnologii ogneupornyh materialov [Theoretical foundations of technology of refractory materials]. Moscow, Metallurgija Publ., 1985, 480 p.

5. Ogneupornye materialy. Struktura, svojstva, ispytanija: spravochnik [Refractory materials. Structure, properties, tests: manual]. Moscow, Intermet Inzheiniring Publ., 2010, 391 p.

6. 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.

7. Balkevich V. L. Tehnicheskaja keramika [Technical ceramic]. Moscow, Stroyizdat Publ., 1984, 256 p.

8. 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.

9. Popov R. Ju., Samsonova A. S., Djatlova E. M. [et. al]. Sintez vollastonitovoj keramiki s ispol’zovaniem kal’cijsoderzhashhih othodov proizvodstva izvesti [Synthesis of wollastonite ceramics using calcium‑containing waste from lime production]. Novye ogneupory = New refractories, 2022, no. 12, pp. 45–55.

10. Popov R. Ju., Samsonova A. S., Shimanskaja A. H., Djatlova E. M. Sintez vollastonitsoderzhashhej keramiki na osnove prirodnogo syr’ja Respubliki Belarus’ [Synthesis of wollastonite‑containing ceramics based on natural raw materials of the Republic of Belarus]. Steklo i keramika = Glass and Ceramics, 2023, vol. 69, no. 4, pp. 12–21.