Guang Wang, Yin-gui Ding, Jing-song Wang, Xue-feng She, and Qing-guo Xue, Effect of carbon species on the reduction and melting behavior of boron-bearing iron concentrate/carbon composite pellets, Int. J. Miner. Metall. Mater., 20(2013), No. 6, pp. 522-528. https://doi.org/10.1007/s12613-013-0760-1
Cite this article as:
Guang Wang, Yin-gui Ding, Jing-song Wang, Xue-feng She, and Qing-guo Xue, Effect of carbon species on the reduction and melting behavior of boron-bearing iron concentrate/carbon composite pellets, Int. J. Miner. Metall. Mater., 20(2013), No. 6, pp. 522-528. https://doi.org/10.1007/s12613-013-0760-1

Effect of carbon species on the reduction and melting behavior of boron-bearing iron concentrate/carbon composite pellets

+ Author Affiliations
  • Corresponding author:

    Qing-guo Xue    E-mail: xueqingguo@ustb.edu.cn

  • Received: 17 September 2012Revised: 23 October 2012Accepted: 11 November 2012
  • Iron nugget and boron-rich slag can be obtained in a short time through high-temperature reduction of boronbearing iron concentrate by carbonaceous material, both of which are agglomerated together as a carbon composite pellet. This is a novel flow sheet for the comprehensive utilization of boron-bearing iron concentrate to produce a new kind of man-made boron ore. The effect of reducing agent species (i.e., carbon species) on the reduction and melting process of the composite pellet was investigated at a laboratory scale in the present work. The results show that, the reduction rate of the composite pellet increases from bituminite, anthracite, to coke at temperatures ranging from 950 to 1300℃. Reduction temperature has an important effect on the microstructure of reduced pellets. Carbon species also affects the behavior of reduced metallic iron particles. The anthracite-bearing composite pellet melts faster than the bituminitebearing composite pellet, and the coke-bearing composite pellet cannot melt due to the high fusion point of coke ash. With anthracite as the reducing agent, the recovery rates of iron and boron are 96.5% and 95.7%, respectively. This work can help us get a further understanding of the new process mechanism.
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