Mineralization characteristics of pellets prepared by ultrafine magnetite concentrate: influence on metallurgical property and improving method
Xiao-hui Fan1, Zhi-an Zhou1,2, Shu Wang1, Min Gan1, Zhi-yun Ji1, Xu-ling Chen1, Zhi-yuan Tian1
1 School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, Hunan, China; 2 Northern Engineering and Technology Corporation, MCC, Dalian 116600, Liaoning, China
Mineralization characteristics of pellets prepared by ultrafine magnetite concentrate: influence on metallurgical property and improving method
Xiao-hui Fan1, Zhi-an Zhou1,2, Shu Wang1, Min Gan1, Zhi-yun Ji1, Xu-ling Chen1, Zhi-yuan Tian1
1 School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, Hunan, China; 2 Northern Engineering and Technology Corporation, MCC, Dalian 116600, Liaoning, China
摘要 The reducing property of pellets prepared by ultrafine magnetite concentrate (UMC) and improving method were revealed. The results show that the reduction degree of UMC pellets is only about 56% compared with that of pellets prepared from ordinary iron ore concentrate with relatively coarse particle size, which is significantly lower than the general reduction degree of about 70%. When the composite binder composed of bentonite and organic binder was added, the reduction degree was significantly increased to 69.66%. The revealed mechanism shows that the reduced pellets with common bentonite have a concentric structure, the oxidation gap between the inner and outer layers is obvious, and the outer dense oxide layer hinders the oxidation and reduction of the inner layer. After adding the composite binder, the organic components significantly improved the internal porosity of the pellets and the aggregation degree of ultrafine iron ore concentrate particles in the granulation process, forming a porous structure. The non-uniform double-layer structure is eliminated, and the increased pores are conducive to the internal diffusion of CO, and finally the reduction degree of pellets is increased to the level equivalent to that of ordinary magnetite pellets.
Abstract:The reducing property of pellets prepared by ultrafine magnetite concentrate (UMC) and improving method were revealed. The results show that the reduction degree of UMC pellets is only about 56% compared with that of pellets prepared from ordinary iron ore concentrate with relatively coarse particle size, which is significantly lower than the general reduction degree of about 70%. When the composite binder composed of bentonite and organic binder was added, the reduction degree was significantly increased to 69.66%. The revealed mechanism shows that the reduced pellets with common bentonite have a concentric structure, the oxidation gap between the inner and outer layers is obvious, and the outer dense oxide layer hinders the oxidation and reduction of the inner layer. After adding the composite binder, the organic components significantly improved the internal porosity of the pellets and the aggregation degree of ultrafine iron ore concentrate particles in the granulation process, forming a porous structure. The non-uniform double-layer structure is eliminated, and the increased pores are conducive to the internal diffusion of CO, and finally the reduction degree of pellets is increased to the level equivalent to that of ordinary magnetite pellets.
Xiao-hui Fan,Zhi-an Zhou,Shu Wang, et al. Mineralization characteristics of pellets prepared by ultrafine magnetite concentrate: influence on metallurgical property and improving method[J]. Journal of Iron and Steel Research International, 2023, 30(03): 446-455.