DEVELOPMENT AND INVESTIGATION OF THE PROPERTIES OF LOW-TEMPERATURE FUSIBLE ENAMEL COMPOSITIONS BASED ON THE “KHIVA QUARTZ SAND – SULTAN UVAYS FELDSPAR – LEAD-CONTAINING WASTE” SYSTEM

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Published: 15.05.2026
DOI: https://doi.org/10.70769/3030-3214.SRT.4.2.2026.5
Keywords:
glass enamel, frit, quartz sand, feldspar, lead-containing waste, coefficient of thermal expansion, physicochemical properties, low-temperature enamel

Main Article Content

Buranova, D.B.
Urganch davlat universiteti Abu Rayhon Beruniy nomidagi

Abstract

This article presents the results of research on the development of low-temperature fusible glass enamel compositions based on Khiva quartz sand, Sultan Uvays feldspar, and lead-containing industrial waste, as well as the investigation of their physicochemical and technological properties. Based on experimental studies, GEF-1, GEF-2, and GEF-3 compositions were developed, and their coefficient of linear thermal expansion, spreading ability, adhesion strength, density, and softening temperature were determined. The results showed that the GEF-3 composition fully complies with the requirements of GOST 24405-80.

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Article Details

Issue

Vol. 4 No. 2 (2026)

Section

Chemical Technology and Construction
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Author Biography

Buranova, D.B., Urganch davlat universiteti Abu Rayhon Beruniy nomidagi

Associate Professor of the Department of Chemical Technologies, PhD in Technical Sciences, Urgench State University named after Abu Rayhan Beruni, Urgench, Uzbekistan

How to Cite

Buranova, D. B. (2026). DEVELOPMENT AND INVESTIGATION OF THE PROPERTIES OF LOW-TEMPERATURE FUSIBLE ENAMEL COMPOSITIONS BASED ON THE “KHIVA QUARTZ SAND – SULTAN UVAYS FELDSPAR – LEAD-CONTAINING WASTE” SYSTEM. Digital Technologies in Industry, 4(2). https://doi.org/10.70769/3030-3214.SRT.4.2.2026.5

References

[1] GOST R 52569-2018. (2018). Frits. Technical specifications. Moscow: Standartinform.

[2] Buranova, D. B., Babaev, Z. K., Matchanov, Sh. K., Karimov, Sh. X., & Kurbanova, R. S. (2019). Glass formation with CaO, MgO and BaO in the system SiO2-B2O3-Na2O and their effect on some properties. International Journal of Bio-Science and Bio-Technology, 11(7), 166–172.

[3] Buranova, D. B., Yunusov, M. Y., Babaev, Z. K., Matchanov, Sh. K., & Matchanov, Sh. Sh. (2022). On the use of cobalt-containing metallurgical waste to obtain colored glass and glass enamel. Glass and Ceramics, 79(7–8), 300–305.

[4] Буранова, Д. Б., Бабаев, З. К., Матчанов, Ш. К., Хакимова, Г. Н., & Хакимов, М. С. (2016). Использование некоторых минеральных ресурсов Узбекистана в качестве мельничных добавок. В Материалы международной научно-технической конференции «Актуальные проблемы инновационных технологий в развитии химической, нефте-газовой и пищевой промышленности» (Ч. I, сс. 296–297). Ташкент.

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[7] Буранова, Д. Б., Бабаев, З. К., Матчанов, Ш. К., Аташев, Э. А., & Казаков, У. (2017). Инновационная технология получение стекломозаичных плит. В Кимё саноатида инновацион технологиялар ва уларни ривожлантириш истиқболлари (1-жилд, бб. 116–117). Урганч.

[8] Буранова, Д. Б., Бабаев, З. К., Матчанов, Ш. К., Хаджиев, А. Ш., & Атаева, Ф. А. (2017). Состав и лабораторная апробация получения стекловидной покрытий для майолики. В Кимё саноатида инновацион технологиялар ва уларни ривожлантириш истиқболлари (1-жилд, бб. 120–121). Урганч.

[9] Buranova, D. B. (2017). Metall yuzalari uchun silikat emal olish texnologiyasi. В Кимё саноатида инновацион технологиялар ва уларни ривожлантириш истиқболлари (1-жилд, бб. 122–123). Урганч.

[10] Буранова, Д. Б., Юнусов, М. Ю., Бабаев, З. К., Матчанов, Ш. К., & Искандаров, О. Д. (2017). Стеклоэмалевые покрытия для эмалирования хозяйственно-кухонной посуды. В Kon-metallurgiya majmuasi: yutuqlar, muammolar va rivojlantirishning zamonaviy istiqbollari (б. 468). Навоий.

[11] Buranova, D. B. (2027). Main characteristics of quartz-feldspar sands from the Khiva deposit, and the physico-chemical and technological fundamentals of obtaining an enriched concentrate. Kompleksnoe Ispolzovanie Mineralnogo Syra = Complex Use of Mineral Resources, 340(1), 37–44. https://doi.org/10.31643/2027/6445.04

[12] Buranova, D., Matchanov, Sh., & Atashev, E. (2025). Physicochemical and mineralogical characterization of Sultan Uwais feldspar for sustainable glass manufacturing in earth and environmental sciences. E3S Web of Conferences, 633, 06001. https://doi.org/10.1051/e3sconf/202563306001

[13] Buranova, D. B., Atashev, E. A., Matchanov, Sh. K., & Kurambaev, Sh. R. (2024). Opportunities to obtain glass enamel frits based on the raw materials of the Lower Amudarya Region. In Proceedings of the 6th International Conference on Construction Mechanics, Hydraulics and Water Resources Engineering Autumn Season (CONMECHYDRO 2024) (pp. 253–258). https://doi.org/10.5220/0013533100004644

[14] GOST 24405-80. (1980). Silicate enamels (frits). Technical specifications. Moscow.

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