Structural, compositional and mineralogical characterization of carbonatitic copper sulfide: Run of mine, concentrate and tailings

论文摘要

The aim of this study was to determine the structural, compositional, and mineralogical composition of carbonatitic copper sulfide concentrator plant streams. Three samples, each from a different stream（run of mine（ROM）, concentrate, and tailings） of a copper concentrator were characterized using various techniques, including stereomicroscopy, X-ray fluorescence, X-ray diffraction, Fourier transform infrared（FTIR） spectroscopy, scanning electron microscopy（SEM） in conjunction with energy-dispersive X-ray spectroscopy（EDS）, and optical microscopy. The results reveal that each stream possesses its own unique compositional features. Carbonate minerals associated with calcite and dolomite, followed by quartz, remain the major minerals in both the ROM and tails streams. In the ROM stream, chalcopyrite appears to occur as veins within the carbonatite-hosting ore body. Mineral phase mutation was discovered in the tails stream because magnetite formerly identified in the ROM as the primary iron oxide had evolved into hematite. This metamorphosis was likely promoted by the concentration process. The concentration process was effective, upgrading the chalcopyrite content from 2 wt% in the ROM stream to 58 wt% in the concentrate stream; it was accompanied by bornite（4 wt%）, anilite（3 wt%）, and digenite（2.5 wt%）. In addition, the concentrate stream exhibited properties distinctive from those of the other streams. The FTIR analysis showed the existence of a sulfide group related to the chalcopyrite mineral. Free chalcopyrite grains were observed in the concentrate by SEM analysis, and their mineral presence was supported by the EDS analysis results. All characterization techniques corresponded well with each other regarding the structure, chemistry, and composition of the samples.

论文目录

文章来源

类型: 期刊论文

作者: Kolela J Nyembwe,Elvis Fosso-Kankeu,Frans Waanders,Kasongo D Nyembwe

来源: International Journal of Minerals Metallurgy and Materials 2019年02期

年度: 2019

分类: 工程科技Ⅱ辑,工程科技Ⅰ辑

专业: 矿业工程

单位: Water Pollution Monitoring and Remediation Initiatives Research Group, School of Chemical and Minerals Engineering, Faculty of Engineering, North-West University,School of Mining, Metallurgy and Chemical Engineering, Faculty of Engineering and the Built Environment, University of Johannesburg

基金: the chemical engineering department at the North-West University for the support

分类号: TD952

页码: 143-151

总页数: 9

文件大小: 2462K

下载量: 31

相关论文文献

• [1].Production of Metal Concentrates in 2012[J]. China Nonferrous Metals Monthly 2013(02)
• [2].Production of Metal Concentrates in 2013[J]. China Nonferrous Metals Monthly 2013(04)
• [3].Production of Metal Concentrates in 2013[J]. China Nonferrous Metals Monthly 2013(05)
• [4].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2012(01)
• [5].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2012(02)
• [6].Production of Metal Concentrates in 2012[J]. China Nonferrous Metals Monthly 2012(04)
• [7].Production of Metal Concentrates in 2012[J]. China Nonferrous Metals Monthly 2012(05)
• [8].Production of Metal Concentrates in 2012[J]. China Nonferrous Metals Monthly 2012(06)
• [9].Production of Metal Concentrates in 2012[J]. China Nonferrous Metals Monthly 2012(07)
• [10].Production of Metal Concentrates in 2012[J]. China Nonferrous Metals Monthly 2012(08)
• [11].Production of Metal Concentrates in 2012[J]. China Nonferrous Metals Monthly 2012(09)
• [12].Production of Metal Concentrates in 2012[J]. China Nonferrous Metals Monthly 2012(11)
• [13].Production of Metal Concentrates in 2012[J]. China Nonferrous Metals Monthly 2012(12)
• [14].Production of Metal Concentrates in 2010[J]. China Nonferrous Metals Monthly 2011(01)
• [15].Production of Metal Concentrates in 2010[J]. China Nonferrous Metals Monthly 2011(02)
• [16].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2011(04)
• [17].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2011(06)
• [18].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2011(05)
• [19].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2011(07)
• [20].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2011(08)
• [21].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2011(09)
• [22].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2011(10)
• [23].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2011(11)
• [24].Production of Metal Concentrates in 2011[J]. China Nonferrous Metals Monthly 2011(12)
• [25].Production of Metal Concentrates in 2009[J]. China Nonferrous Metals Monthly 2010(01)
• [26].Production of Metal Concentrates in 2009[J]. China Nonferrous Metals Monthly 2010(02)
• [27].Production of Metal Concentrates in 2010[J]. China Nonferrous Metals Monthly 2010(04)
• [28].Production of Metal Concentrates in 2010[J]. China Nonferrous Metals Monthly 2010(06)
• [29].Production of Metal Concentrates in 2010[J]. China Nonferrous Metals Monthly 2010(05)
• [30].Production of Metal Concentrates in 2010[J]. China Nonferrous Metals Monthly 2010(07)