Diffusion behavior and distribution regulation of MgO in MgO-bearing pellets
来源期刊:International Journal of Minerals Metallurgy and Materials2016年第9期
论文作者:Qiang-jian Gao Yan-song Shen Guo Wei Xin Jiang Feng-man Shen
文章页码:1011 - 1018
摘 要:In this paper, the diffusion behavior between MgO and Fe2O3(the main iron oxide in pellets) is investigated using a diffusion couple method. In addition, the distribution regulation of MgO in MgO-bearing pellets is analyzed via pelletizing experiments. The results illustrate that MgO is prone to diffuse into Fe2O3 in the form of solid solution; the diffusion rate considered here is 13.64 μm·min-1. Most MgO content distributes in the iron phase instead of the slag phase. The MF phase {(Mg1-xFex)O·Fe2O3, x ≤ 1} is generated in the MgO-bearing pellets. However, the distribution of MgO in the radial direction of the pellets is inconsistent. The solid solution portion of MgO in the MF phase is larger in the outer layer of the pellets than in the inner layer. In this work, the approximate chemical composition of the MF phase in the outer layer of the pellets is {(Mg0.35-0.77·Fe0.65-0.23) O·Fe2O3} and in the inner layer is {(Mg0.13-0.45·Fe0.87-0.55)O·Fe2O3}.
Qiang-jian Gao1,Yan-song Shen2,Guo Wei1,Xin Jiang1,Feng-man Shen1
1. School of Metallurgy, Northeastern University2. School of Chemical Engineering, University of New South Wales
摘 要:In this paper, the diffusion behavior between MgO and Fe2O3(the main iron oxide in pellets) is investigated using a diffusion couple method. In addition, the distribution regulation of MgO in MgO-bearing pellets is analyzed via pelletizing experiments. The results illustrate that MgO is prone to diffuse into Fe2O3 in the form of solid solution; the diffusion rate considered here is 13.64 μm·min-1. Most MgO content distributes in the iron phase instead of the slag phase. The MF phase {(Mg1-xFex)O·Fe2O3, x ≤ 1} is generated in the MgO-bearing pellets. However, the distribution of MgO in the radial direction of the pellets is inconsistent. The solid solution portion of MgO in the MF phase is larger in the outer layer of the pellets than in the inner layer. In this work, the approximate chemical composition of the MF phase in the outer layer of the pellets is {(Mg0.35-0.77·Fe0.65-0.23) O·Fe2O3} and in the inner layer is {(Mg0.13-0.45·Fe0.87-0.55)O·Fe2O3}.
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