Analysis of the Effect of Fluxing Additives in the Production of Titanium Slags in Laboratory Conditions

Myrzakulov M.K. Dzhumankulova S.K. Yelemessov K.K. Barmenshinova M.B. Martyushev N.V. Skeeba V.Y. Kondratiev V.V. Karlina A.I.
December 2024 Multidisciplinary Digital Publishing Institute (MDPI)

Metals
2024 #14 Issue 12

The article theoretically justified and experimentally confirmed the possibility of implementing the process of the electric melting of Satbayevskiy ilmenite concentrates with new fluxing additives based on oxides and nitrides of aluminium, calcium, and boron. They also include boron carbonitride CNV that will expand the raw material base of Kazakhstan titanium production by involving local substandard material in the process, as well as the technical and economic performance of electric melting. In order to conduct experiments in the area of extremum, the ilmenite concentrate from the Satbayev deposit was taken. Furthermore, the optimum conditions of the electric melting of Satbayevski ilmenite concentrates (such as the process temperature of 1550–1600 °C, the reducing agent consumption of 8–10% of the concentrate mass, and the duration of 90 min), using new fluxing additives, were selected. As a result of the experiment (performed at a temperature of 1600 °C), it has been found that the introduction of 3 to 6% of fluxes in the charge of electric melting promotes the reduction of iron oxides from 45 to 80% and achievement of the extraction of titanium oxide in slag of up to 83.5–90.1%. The addition of 6% boron oxide and carbonitride in the charge of electric melting reduces the melting temperature of the charge to ~1400–1450 °C and the melting time to 90 min. It also creates conditions for a quieter electric melting mode.

gibbs energy , ilmenite concentrate , oxides , sodium carbonate , thermodynamic analysis , titanium slag

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Institute of Energy and Mechanical Engineering, Satbayev University, Almaty, 050013, Kazakhstan
Mining and Metallurgical Institute, Satbayev University, Almaty, 050013, Kazakhstan
Department of Advanced Technologies, Tomsk Polytechnic University, Tomsk, 634050, Russian Federation
Department of Industrial Machinery Design, Novosibirsk State Technical University, Novosibirsk, 630073, Russian Federation
Institute of Geochemistry of the Siberian Branch of the Russian Academy of Sciences, Irkutsk, 664033, Russian Federation
Stroytest Research and Testing Centre, Moscow State University of Civil Engineering, Moscow, 129337, Russian Federation

Institute of Energy and Mechanical Engineering
Mining and Metallurgical Institute
Department of Advanced Technologies
Department of Industrial Machinery Design
Institute of Geochemistry of the Siberian Branch of the Russian Academy of Sciences
Stroytest Research and Testing Centre

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