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

 

ISSN 0131-9582 (Online)

  • Continuous numbering: 1148
  • Pages: 48-55
  • Share:

Heading: Not-set

The paper presents the results of the research on the production of electrical porcelain on the basis of available traditional raw materials of Uzbekistan. It is shown that in conditions of a shortage of high-grade mineral raw materials for the production of electrical porcelain, it is advisable to add about half of the kaolin in the pre-fired state to the batch.
At the same time, the products of firing at 1350 ?С of primary and secondary Angren kaolins allow us to consider them as a mullite-containing component, which further provides high physical, mechanical and dielectric properties of the porcelain material. The phase composition of the obtained porcelain is mainly represented by new crystalline components such as mullite and cristobalite, which gives the right to relate it to the mullite type of electro porcelain.
Shahida M. Shamuratova – Candidate of Chemical Sciences, Associate Professor of the Tashkent Institute of Chemical Technology, Tashkent, Uzbekistan.E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it..
Djonon I. Alimdjanova – Candidate of Chemical Sciences, Associate Professor of the Tashkent Institute of Chemical Technology, Tashkent, Uzbekistan.E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Zaynobiddin T. Matkarimov – Candidate of Chemical Sciences, Associate Professor of the Tashkent Institute of Chemical Technology, Tashkent, Uzbekistan. E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
1. Алимджанова Д. И., Шамуратова Ш. М. Электротехнический фарфор на основе нетрадиционного сырья Узбекистана // Universum: технические науки, 2017. № 4 (37). С. 69–75.
2. Вакалова Т. В., Погребенков В. М., Черноусова О. А. Структурно-фазовые превращения при обжиге нового керамического сырья – топазсодержащих пород // Стекло и керамика. 2002. № 6. С. 24–27. [Vakalova T. V., Pogrebenkov V. M., Chernousova O. A. Structural-Phase Transformations in Firing of a New Ceramic Material: Topaz-Bearing Rock // Glass Ceram. 2002. V. 59, No. 5–6. P. 208–211.]
3. Montoya N., Serrano F. H., Reventos M. M., et al. Effect of TiO2 on the formation of mullite and mechanical properties of alumina porcelain // Journal of the European Ceramic Society. 2010. V. 30, No. 4. P. 839–846.
4. Курбанбаев М. Е., Есимов Б. О. Адырбаева Т. А., Верещагин В. И. Электротехнический фарфор на основе минерального сырья Республики Казахстан // Огнеупоры и техническая керамика 2015. Т. 92, № 4–5. С. 46–51.
5. Курбанбаев М. Е., Верещагин В. И., Есимов Б. О., Адырбаева Т. А. Электротехнический фарфор с использованием природных тонкодисперсного кремнеземсодержащего сырья и волластонитов // Стекло и керамика. 2019. Т. 92, № 12. С. 37–43. [Kurbanbaev М. Е., Esimov B. O., Adyrbaeva T. A., Vereshchagin V. I. Electrotechnical Porcelain Using Native Fine Silica-Containing Raw Materials and Wollastonites // Glass Ceram. 2019. V. 76, No. 11–12. P. 468 –473.]
6. Верещагин В. И., Шаталов П.И., Могилевская Н. В. Бесспековая технология диопсидовых керамических диэлектриков на основе безжелезистого диопсидового сырья слюдянского месторождения // Огнеупоры и техническая керамика 2006. № 8. С. 33–35.
7. Верещагин В. И., Могилевская Н. В., Цой А. Г. Использование слюдянских диопсидовых пород с различным содержанием железа в тонкой и строительной керамике // Технология керамики и огнеупоров: семинар-совещание, 14–15 ноября 2006 г. Белгород, 2006. С. 152–157.
8. Sanjay K., Das S. K., Daspoddar P. K. Thermamechanical benaviour of low cement costables derived from mullitle aggregates sunthesised from beach sand sillimanite // Ceramics International. 2003. V. 29, No. 2. P. 139–144.
9. Tvipathi H. S., Banerjes G. Effect of chemical Composition on sintering and properties of Al2O3–SiO2 system derived from sillimanite beach sonal // Ceramics International. 1999. V. 25, No. 1. P. 19–25.
10. Kegin Ki, Tadao Shimizu, Kaoru Igarashi. Preparation of short Mullite Fibers from Kaolin via the Addition of Foaming Agents // J. Amer. Ceram. Soc. 2001. V. 84, No. 3. P. 497–503.

The article can be purchased
electronic!

PDF format

500 руб

DOI: 10.14489/glc.2023.08.pp.048-055
Article type: Research Article
Make a request

Keywords

Use the reference below to cite the publication

Shamuratova Sh. M., Alimdjanova D. I., Matkarimov Z. T. Electrotechnical porcelain based on raw materials of Uzbekistan. Steklo i keramika. 2023:96(08):48-55. (in Russ). DOI: 10.14489/glc.2023.08.pp.048-055