Yang Gang, Xie Quanmin, Li Yidi, Kumar E Ranjith, Liu Fang, Yang Mei
State Key Laboratory of Precision Blasting, Jianghan University, Wuhan 430056, China.
Faculty of Materials Science and Chemistry, China University of Geosciences (Wuhan), Wuhan 430074, China.
ACS Omega. 2024 Jan 9;9(3):3827-3834. doi: 10.1021/acsomega.3c07893. eCollection 2024 Jan 23.
In this work, twenty-one core samples of tailings wastes were collected from Yeshan iron tailings pond in Jiangsu Province, China. The mineralogical-chemical properties of Yeshan iron ore tailings (IOTs) were investigated to explore potential utilization. Mineralogical investigations and mineral liberation analysis indicated that the iron tailings have complex texture and incomplete mineral liberation, suggesting further grinding can improve higher recovery. Yeshan IOTs accumulated much higher MgO originating from dolomite, therefore, it could be infeasible to utilize a large quantity of Yeshan IOTs as alternative raw meals for cement clinker or replace aggregates in concrete. 2D vertical distribution profiles created with the ordinary kriging method presented heterogeneous distributions of major elements, and the variation trends were inconsistent. The results obtained in this work provide insight for exploiting and reducing Yeshan IOTs.
在本研究中,从中国江苏省冶山铁矿尾矿库采集了21个尾矿废弃物岩芯样本。对冶山铁矿尾矿(IOTs)的矿物化学性质进行了研究,以探索其潜在利用价值。矿物学研究和矿物解离分析表明,铁尾矿结构复杂且矿物解离不完全,这表明进一步研磨可提高回收率。冶山IOTs中源自白云石的氧化镁含量高得多,因此,大量使用冶山IOTs作为水泥熟料的替代生料或替代混凝土中的骨料可能不可行。用普通克里金法创建的二维垂直分布剖面图显示了主要元素的非均匀分布,且变化趋势不一致。本研究所得结果为冶山IOTs的开发和减排提供了见解。