The results of investigations of the chemico-mineralogical and fractional compositions as well as physicochemical properties of glauconite sandstones of the Changi deposit are presented. Enrichment methods were selected and thermal activation was conducted. The coloring properties, hiding power, and oil absorption of the obtained brown and green pigments were investigated. It was been determined that this glauconite sandstone can be used as a raw material for the production of coloring pigments in the building materials industry and the manufacture of ceramic glazes at manufacturing enterprises in Uzbekistan.
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References
M. Yu. Yunusov, Z. K. Babaev, G. N. Khakimova, and Sh. K. Matchanov, “Glauconite-bearing sands of Uzbekistan: Main characteristics and prospects for use,” Gornyi Vest. Uzbekistana, No. 2, 58 – 60 (2010).
A. A. Eminov, R. I. Abdullaeva, Z. R. Kadyrova, “Dzherdanak quartzite rocks for ceramic and refractory materials production,” Glass Ceram., 74(1 – 2), 64 – 66 (2017).
R. A. Khamidov, N. T. Khodzhaev, N. M. Khakberdiev, and A. M. Ergeshov, “Mineral pigments of eastern Uzbekistan,” Geol. Mineral. Resyrsy, No. 5, 50 – 58 (2016).
Yu. V. Beskrovny, G. G. Veretennikov, and N. V. Galkina, “Glauconite from the Changi deposit and prospects for its use,” in: Central Asian Research Institute of Geology and Mineralogical Raw Materials Proceedings [in Russian], Fan, Tashkent (1970), No. 28.
GOST 16873–92. Pigments and Fillers Are Inorganic. Methods for Determining Color and Whiteness [in Russian], Standartinform, Moscow (2007)
T. Z. Lygina, V. P. Luzin, and A. V. Kornilova, “Technogenic waste of non-metallic raw materials in the production of building materials,” Stroit. Mater. Izdeliya, Kazan’, No. 4, 303 – 311 (2017).
S. S. Tol’kachev, Tables of Interplanar Distances [in Russian], Khimiya, Leningrad (1968).
ASTM Standards Part 17. Refractories, Glass, Ceramic Materials, Carbon and Graphite Products, ASTM, Philadelphia (2005), pp. 7 – 9, 51 – 61.
Sh. M. Niyazova, Z. R. Kadyrova, Kh. L. Usmanov, et al., “Physicochemical properties of andesitic basalt mineral fibers,” Glass Ceram., 79, 107 – 111 (2022).
M. L. Levchenko, A. M. Gubaidulina, and T. Z. Lygina, “Optimal technologies for obtaining sorbents and pigments from natural silicates of complex composition,” Vest. Kazan. Tekhnol. Univ., No. 4, 45 – 49 (2009).
Z. R. Kadyrova, S. Kh. Tuganova, and A. A. Eminov, “High-temperature interaction between calcium and strontium titanodisilicates,” Glass Ceram., 68(11 – 12), 413 – 415 (2012).
GOST 21119.8–75 (ISO 787-5–80). General Test Methods for Pigments and Fillers. Determination of Oil Absorption [in Russian], Izd. Standartov, Moscow (1999).
GOST 8784–75 (STS EV 5904–75). Paintwork materials. Methods for Determining the Hiding Power [in Russian], Izd. Standartov, Moscow (2002).
L. F. Korsunskii, T. V. Kalinskaya, and S. N. Stepin, Handbook of Inorganic Pigments [in Russian], Khimiya, St. Petersburg (1992).
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Translated from Steklo i Keramika, No. 2, pp. 42 – 47, February, 2023
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Makhsudova, Z.I., Kadyrova, Z.R. & Mirzaev, A.Z. Glauconite Sandstones of the Changi Deposit — Promising Raw Material for Obtaining Green and Brown Pigments. Glass Ceram 80, 70–73 (2023). https://doi.org/10.1007/s10717-023-00558-w
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DOI: https://doi.org/10.1007/s10717-023-00558-w