Abstract
The aluminothermic process is used for producing ferrotitanium alloy (FeTi) from an ilmenite concentrate. In this study, based on thermodynamic calculations and experiments, we investigated the effects of adding varying amounts of exothermal agent (NaClO3), slag-forming agent (CaO), and reducing agent (Al) on the recovery ratio of Ti in the aluminothermic process. The thermodynamic calculations suggested that the exothermal agent plays a crucial role in producing the FeTi alloy from the ilmenite concentrate and the maximum Ti grade in the FeTi alloy was approximately 30 wt %. Experimentally, it was verified that the FeTi alloy obtained under the optimum mixing conditions contained 30.2–30.8 wt % Ti, 1.1–1.3 wt % Si, 9.5–11.2 wt % Al, and 56.9–58.0 wt % Fe, along with trace impurities and small amounts of gases such as oxygen (0.35–0.66 wt %) and nitrogen (0.01–0.02 wt %). At the optimum mixing conditions, the recovery ratio of Ti into the obtained FeTi alloy phase was 60.6–68.9%. These results matched closely with the thermodynamic calculations. Therefore, the thermodynamic calculations performed herein are expected to significantly contribute toward the development of new processes and improvement in conventional processes for producing various ferroalloys including the FeTi alloy through the aluminothermic process.
Highlights
ferrotitanium alloy (FeTi) alloys are widely used in various industries such as steel, automotive, aerospace, and biomechanics.Generally, they are produced by the remelting process using Ti scrap as the raw Ti source [1,2,3,4,5,6,7,8,9]
When the FeTi alloy was produced from the FeTiO3 concentrate using the aluminothermic process, we investigated the effect of the amount of NaClO3 on the recovery of Ti and Fe into the FeTi alloy phase by changing the amount of NaClO3 compared to the weight of TiO2 in the FeTiO3 concentrate from 0 to 25 wt %
The aluminothermic process for producing the FeTi alloy from an FeTiO3 concentrate was investigated through thermodynamic calculation and validated experimentally
Summary
FeTi alloys are widely used in various industries such as steel, automotive, aerospace, and biomechanics They are produced by the remelting process using Ti scrap as the raw Ti source [1,2,3,4,5,6,7,8,9]. Ore instead of Ti scrap [10,11,12,13,14,15,16,17], has attracted significant attention This process is industrially useful for producing ferroalloys such as ferrotungsten, ferromolybdenum, and ferrovanadium, which are used to improve the properties of cast iron and steel [18,19,20]
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