Litcius/Paper detail

Technological research of process for producing titanium rich slag and complex titanium-containing ferroalloy

Nina Vorobkalo, А. С. Байсанов, Yerbolat Makhambetov, Yesmurat Mynzhasar, Nurzhan Nurgali

2023Heliyon15 citationsDOIOpen Access PDF

Abstract

This paper demonstrates the results on the experimental smelting of the titanium rich slag and complex titanium-containing ferroalloy under the large-scale laboratory conditions that simulate industrial one. The technological researches of the process were performed on an ore-thermal furnace with 200 kVA transformer power. The titanium rich slag was produced from the low-grade ilmenite concentrate, i.e. the low TiO 2 content and the high content of impurities. During the production of the high-grade titanium slag (TiO 2 content: 75–80%), the impurity elements are transferred into the associated alloyed metal (cast iron). Thus, it can be used to smelt the steel. As a result, samples of titanium slag have been produced with the content of the main components, %: TiO 2 – 80.2; Al 2 O 3 – 4.5; SiO 2 – 1.97; Cr 2 O 3 – 1.3 and Fe 2 O 3 – 9.87. Then, in metallurgical practice a complex titanium-containing ferroalloy was first smelted from the previously produced titanium rich slag using a carbothermic approach. The high-ash coal was applied as a carbon-bearing reducing agent. The ash was more 45%. As a result of tests, a pilot batch of the alloy was produced with the following chemical composition, %: Ti - 20–25; Si - 35–45; Al - 10–15; C - 0.2–0.5; P - no more than 0.08; and ferrum. The main component content in the produced alloy suggests that it can serve as an alternative to a mechanical mixture (FeSi45, aluminum shavings, low-percentage ferrotitanium) for steel alloying and deoxidation purposes.

Topics & Concepts

FerroalloyMetallurgyTitaniumMaterials scienceSmeltingSlag (welding)AlloyImpurityChemistryOrganic chemistryIron and Steelmaking ProcessesMetallurgical Processes and ThermodynamicsMetal Extraction and Bioleaching