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Carbothermic reduction characteristics of ludwigite and boron-iron magnetic separation
引用本文:Guang Wang,Qing-guo Xue,Jing-song Wang. Carbothermic reduction characteristics of ludwigite and boron-iron magnetic separation[J]. 矿物冶金与材料学报, 2018, 25(9): 1000-1009. DOI: 10.1007/s12613-018-1650-3
作者姓名:Guang Wang  Qing-guo Xue  Jing-song Wang
作者单位:State Key Laboratory of Advanced Metallurgy, University of Science and Technology Beijing, Beijing 100083, China
基金项目:This work was financially supported by the China Post-doctoral Science Foundation;the National Natural Science Foundation of China
摘    要:Ludwigite is a kind of complex iron ore containing boron, iron, and magnesium, and it is the most promising boron resource in China. Selective reduction of iron oxide is the key step for the comprehensive utilization of ludwigite. In the present work, the reduction mechanism of ludwigite was investigated. The thermogravimetry and differential scanning calorimetry analysis and isothermal reduction of ludwigite/coal composite pellet were performed. Ludwigite yielded a lower reduction starting temperature and a higher final reduction degree compared with the traditional iron concentrates. Higher specific surface area and more fine cracks might be the main reasons for the better reducibility of ludwigite. Reducing temperature highly affected the reaction fraction and microstructure of the reduced pellets, which are closely related to the separation degree of boron and iron. Increasing reducing temperature benefited the boron and iron magnetic separation. Optimum magnetic separation results could be obtained when the pellet was reduced at 1300℃. The separated boron-rich non-magnetic concentrate presented poor crystalline structure, and its extraction efficiency for boron reached 64.3%. The obtained experimental results can provide reference for the determination of the comprehensive utilization flow sheet of ludwigite.

关 键 词:complex iron ore   boron resource   carbothermic reduction   magnetic separation

Carbothermic reduction characteristics of ludwigite and boron–iron magnetic separation
Guang Wang,Qing-guo Xue,Jing-song Wang. Carbothermic reduction characteristics of ludwigite and boron–iron magnetic separation[J]. International Journal of Minerals,Metallurgy and Materials, 2018, 25(9): 1000-1009. DOI: 10.1007/s12613-018-1650-3
Authors:Guang Wang  Qing-guo Xue  Jing-song Wang
Affiliation:1.State Key Laboratory of Advanced Metallurgy,University of Science and Technology Beijing,Beijing,China
Abstract:Ludwigite is a kind of complex iron ore containing boron, iron, and magnesium, and it is the most promising boron resource in China. Selective reduction of iron oxide is the key step for the comprehensive utilization of ludwigite. In the present work, the reduction mechanism of ludwigite was investigated. The thermogravimetry and differential scanning calorimetry analysis and isothermal reduction of ludwigite/coal composite pellet were performed. Ludwigite yielded a lower reduction starting temperature and a higher final reduction degree compared with the traditional iron concentrates. Higher specific surface area and more fine cracks might be the main reasons for the better reducibility of ludwigite. Reducing temperature highly affected the reaction fraction and microstructure of the reduced pellets, which are closely related to the separation degree of boron and iron. Increasing reducing temperature benefited the boron and iron magnetic separation. Optimum magnetic separation results could be obtained when the pellet was reduced at 1300°C. The separated boron-rich non-magnetic concentrate presented poor crystalline structure, and its extraction efficiency for boron reached 64.3%. The obtained experimental results can provide reference for the determination of the comprehensive utilization flow sheet of ludwigite.
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