Modification of the phase composition of low-grade gibbsite-kaolinite bauxites

R. Abdulvaliyev; S. Dyussenova; A. Manapova; A. Ata; U. Beisenbiyeva

doi:10.31643/2021/6445.22

Authors

R. Abdulvaliyev JSC "Institute of Metallurgy and Ore Beneficiation"
S. Dyussenova JSC "Institute of Metallurgy and Ore Beneficiation"
A. Manapova JSC "Institute of Metallurgy and Ore Beneficiation"
A. Ata Suleyman Demirel University
U. Beisenbiyeva JSC "Institute of Metallurgy and Ore Beneficiation"

DOI:

https://doi.org/10.31643/2021/6445.22

Keywords:

Gibbsite-kaolinite bauxite, chemical activation, sodium bicarbonate, phase composition, conditioning, technology.

Abstract

The known methods of processing low-quality bauxite have a number of disadvantages that make it difficult or impossible to use them in the conditions of production of JSC "Aluminum of Kazakhstan", therefore, it is necessary to effectively develop a technology for preliminary enrichment. Enrichment of low-quality bauxites is possible by separating the clayey - high-siliceous and coarse-crystalline fractions. Electron-microscopic analysis of the original bauxite showed that the coarse-crystalline fraction is tightly pressed by the fine one. The total silicon modulus of the sample is 2.49. The silicon modulus of the fine fraction is 2.19, and that of the coarse fraction is 3.89. When enriching bauxite, as a result of the separation of fines, it is possible to increase the silicon modulus. After the chemical activation of bauxite in a sodium bicarbonate solution, the finely dispersed fraction is effectively separated from the coarse one and the phase composition changes - the calcium silicate phase disappears and the calcite phase is formed. With an increase in the activation temperature, the content of kaolinite and siderite decreases, and the content of quartz and hematite increases. Studies have shown that at temperatures of chemical activation of 120 ° C, duration of more than 120 minutes and 200 ° C, duration of more than 40 minutes, a dawsonite phase is formed in bauxite, which densifies the mineral structure. When determining the optimal regime for carrying out chemical activation, it is necessary to take into account the negative possibility of dawsonite formation.

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Author Biographies

R. Abdulvaliyev, JSC "Institute of Metallurgy and Ore Beneficiation"

and.tech.sc., head of the laboratory of alumina and aluminum.

S. Dyussenova, JSC "Institute of Metallurgy and Ore Beneficiation"

PhD, researcher.

A. Manapova, JSC "Institute of Metallurgy and Ore Beneficiation"

master, junior researcher.

A. Ata, Suleyman Demirel University

Ph.D. - Eng. Group Leader, MMRR Research Group, Department of Mining Engineering.

U. Beisenbiyeva, JSC "Institute of Metallurgy and Ore Beneficiation"

graduate student, junior researcher.

References

Ibragimov A.T.,Budon S.V. (2010). Razvitiye tekhnologii proizvodstva glinozema iz boksitov Kazakhstana [Development of technology for the production of alumina from bauxite in Kazakhstan]. LLP "House of the press»,299. (in Russ).

Tastanov E.A. (2003). Razrabotka fiziko-khimicheskikh osnov i sovershenstvovaniye tekhnologicheskikh protsessov pererabotki nizkokachestvennykh boksitov[Development of physical and chemical foundations and improvement of technological processes for the processing of low-quality bauxite]: dis. doct. tech. science. IMOB,86. (in Russ).

Ni L.P.,Medvedkov B.E.,Abdulvaliyev R.A.et al. (1987). Issledovaniye po pererabotke Krasnooktyabr'skikh boksitov s razdel'nym vyshchelachivaniyem glinistoy i kamenistoy fraktsiy // Pererabotka nekonditsionnogo syr'ya na glinozem[Research on the processing of Krasnooktyabrsk bauxites with separate leaching of clay and rocky fractions]// Processing of substandard raw materials for alumina: collection of articles. scientific. tr. IMOB SA KazSSR,3-8. (in Russ).

Kenzhaliyev B. K. Innovative technologies providing enhancement of nonferrous,precious,rare and rare earth metals extraction // Kompleksnoe Ispol’zovanie Mineral’nogo Syr’a. = Complex Use of Mineral Resources = Mineraldik Shikisattardy Keshendi Paidalanu. 2019, 3 (310), 64-75. (In Eng.). https://doi.org/10.31643/2019/6445.30

Patent No. 32333 RK.Sposob podgotovki alyumosilikatnogo syr'ya pered vyshchelachivaniyem[Method of preparation of aluminosilicate raw materials before leaching] / Abdulvaliev R.A.,Gladyshev S.V.,Pozmogov V.A.,Imangalieva L.M. publ. 31.08.2017.Bul. No. 16. (in Russ).

Miryuk О.А. Activation of cement clinker with high content of belite // Kompleksnoe Ispol’zovanie Mineral’nogo Syr’a. = Complex Use of Mineral Resources = Mineraldik Shikisattardy Keshendi Paidalanu. 2020, 2(313), 38-45. (In Eng.). https://doi.org/10.31643/2020/6445.15

Moenke H. (1962). Mineralspektren. Acad. Verlag,394. (In Eng.).

Farmer V.C. (1974). The Infrared Spectra of minerals // Mineralogical society,539. (In Eng.).

YurchenkoE.N.,KustovaG.N.,BatsanovS.S.(1981).Kolebatel'nyye spektry neorganicheskikh soyedineniy[Vibrational spectra of inorganic compounds]// Science,145. (in Russ.).