| Literature DB >> 30388632 |
Zhongbing Wang1, Zongwen Zhao1, Lifeng Zhang1, Fansong Liu1, Bing Peng2, Liyuan Chai2, Dachun Liu3, Degang Liu1, Tianyu Wang1, Hui Liu4, Yanjie Liang5.
Abstract
The interactions between Fe2SiO4 and ZnO play an essential role in the recovery of zinc from copper slag. The dissolution and substitution mechanism of ZnO in fayalite were investigated by using TG-DSC, XRD, PPMS DynaCool, XPS, Mossbauer and SEM-EDS analyses and compared with MS calculation results. The results indicate that the dissolution and substitution are actually processes of the penetrating dissolution of Zn(II) ions that can be divided into three steps: 1) ZnO dissociates into Zn1-yO and Zn(II) ions; 2) Zn(II) penetrates the gap of the octahedron outer layer to substitute Fe(II) sites in the internal structure of SiOFe(II) (M2) to form (Fe2-x, Znx)SiO4; 3) Fe(II) is forced to migrate to the surface of (Fe2-x, Znx)SiO4 to form (Zn1-y, Fe(II)y)O. These findings can be derived the occurrence state and distribution of zinc in copper slag theoretically.Entities:
Keywords: (Fe(2-x)Zn(x))SiO(4); Fayalite; Penetrating migration; Substitution mechanism; ZnO
Year: 2018 PMID: 30388632 DOI: 10.1016/j.jhazmat.2018.10.071
Source DB: PubMed Journal: J Hazard Mater ISSN: 0304-3894 Impact factor: 10.588