| BENEFICIATION TECHNOLOGY | |
| Название | Investigation of reductive nitriding roasting of perovskite concentrate to produce TiN product and extract rare earth metals |
| DOI | 10.17580/or.2026.03.03 |
| Автор | Anisonyan K. G., Sadykhov G. B., Olyunina T. V., Kop’ev D. Y., Mochenova N. N., Andreeva N. A. |
| Информация об авторе | RAS Institute of Metallurgy and Material Science named after A. A. Baikov (Moscow, Russia) Anisonyan K. G., Candidate of Technical Sciences, Senior Researcher, kanisonyan@imet.ac.ru |
| Реферат | The conditions for reductive nitriding roasting of perovskite concentrate from the Afrikanda deposit have been investigated, under which a nitride product suitable for low-temperature chlorination with titanium recovery in the form of titanium tetrachloride can be obtained. It has been demonstrated that the amount of SiO2 additive introduced into the charge at 1325 °C directly influences both the degree of perovskite decomposition and the phase composition of the roasting products. The optimal SiO2 addition is calculated based on a molar CaO/SiO2 ratio of 2:1 in the charge, using the CaO content of the concentrate as the basis. Under these conditions, the degree of perovskite decomposition with concurrent conversion of titanium into its nitride reaches 85–90%. However, the presence of calcium silicates in the roasted product may reduce the efficiency of subsequent low-temperature chlorination of the nitride product due to increased chlorine consumption associated with CaCl2 formation. It has been shown that calcium oxide can be removed by treating the nitride product with diluted hydrochloric acid solutions. This treatment simultaneously enables the extraction of rare earth metals (REM) into the leach solution. The extent of REM recovery depends on both the degree of perovskite decomposition and the leaching temperature. Subsequent precipitation of REM from the acidic leach solution allows their concentration into a bulk rare earth concentrate. Following chlorination of the nitride product, the solid residue consists of amorphous SiO2 and residual undecomposed perovskite. This residue can be recycled to the head of the process as an additive to the fresh perovskite concentrate during nitriding roasting. Such recycling not only enhances the overall degree of perovskite decomposition but also significantly reduces the required consumption of SiO2 additive in the charge. |
| Ключевые слова | Afrikanda deposit, perovskite concentrate, rare earth metals, reductive nitriding roasting, titanium nitride, calcium silicates, chlorination |
| Библиографический список | 1. The state report “On the state and use of the mineral resources of the Russian Federation in 2023”. Moscow: [w. a p.], 2024. 710 p. |
| Language of full-text | русский |
| Полный текст статьи | Получить |


