Mechanochemical treatment of natural beach ilmenite by silicon addition and their leaching behavior
- Authors
- Han, Y.; Kim, S.; Kim, H.; Shin, H.; Park, Jai Koo
- Issue Date
- Sep-2012
- Keywords
- Leaching behavior; Mechanochemical treatment; Natural beach ilmenite; Silicon
- Citation
- 26th International Mineral Processing Congress, IMPC 2012: Innovative Processing for Sustainable Growth - Conference Proceedings, pp 1900 - 1907
- Pages
- 8
- Indexed
- SCOPUS
- Journal Title
- 26th International Mineral Processing Congress, IMPC 2012: Innovative Processing for Sustainable Growth - Conference Proceedings
- Start Page
- 1900
- End Page
- 1907
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/202811
- ISSN
- 0000-0000
- Abstract
- Mechanically-induced chemical reactions between natural beach ilmenite (FeTiO3) and silicon (Si) have been examined by a combination of X-ray diffraction (XRD) and scanning electronic microscopy (SEM) analyses. The effect of various milling time on the phase transformation, crystallite size, and lattice strain of a beach sand ilmenite with silicon, and on their leaching behavior in hydrochloric acid (HCl) has been investigated. For mechanically activated FeTiO3, the crystallite size decreased and lattice strain increased monotonically with time of milling. However, the mechanochemically synthesized ilmenite with silicon showed a relatively smaller crystallite size and greater lattice strain compared with the mechanically activated ilmenite under the same milling condition. In accordance with the elapse of milling time, the intensity of both pure FeTiO3 and mechanically activated FeTiO3 gradually decreased. However, in case of the mechanochemically synthesized ilmenitereduction of FeTiO3 by silicon resulted in formation of rutile TiO2 at the milling time of 20 h and afterwards. Additional leaching experiments were carried out at an HCl/ilmenite (wt%) ratio of 20:1. The concentration of HCl was 3 M and the reaction temperature ranged from 70 to 90 °C. Mechanical activation was observed to significantly enhance the dissolution rates of both iron (Fe) and titanium (Ti) in HCl. Particularly, effects of both milling time and silicon addition on the dissolution rates of titanium and iron were significant, while those of temperature were relatively minor under the conditions investigated in this study.
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Collections - 서울 공과대학 > 서울 자원환경공학과 > 1. Journal Articles

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