陕西某石墨矿工艺矿物学与选矿研究
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摘要
通过X-射线荧光分析、X-射线粉晶衍射分析、扫描电镜和偏光显微镜等分析手段对陕西某石墨矿进行了系统的工艺矿物学研究。结果表明:该石墨矿主要矿物是晶质鳞片石墨,主要脉石矿物有方解石,石英,黑云母,白云母,长石类(钾长石和钠长石),透辉石,透闪石及少量的帘石类,铁矿物,其中长石类、云母类蚀变较强烈。在工艺矿物学研究的基础上,对该石墨矿采用一次粗磨一次粗选,粗精矿五次再磨六次精选的工艺流程,获得石墨精矿固定碳含量95.92%,回收率90.35%,混合尾矿固定碳含量1.37%的良好选别指标。
By the methods of X-ray fluorescence analysis, X-ray powder diffraction analysis, scanning electron microscopy and electron polarizing microscope, a systematic study on process mineralogy of graphite ore in Shanxi Province was conducted. The results showed that this graphite ore is mainly composed of graphite, calcite, quartz, biotite, muscovite, feldspar classes(potassium feldspar and albite), diopside,tremolite and a small amount of epidote class, iron minerals and so on, while feldspar and mica altered intensely. On the basis of process mineralogy studies, the beneficiation tests were carried out with a process of a coarse grinding and a rougher flotation, followed by five regrinding and six cleaner flotation. The fixed carbon content of the concentrate is 95.92%, and the recovery of concentrate is 90.35%, while the fixed carbon content of the mixed tailings is 1.37%.
By the methods of X-ray fluorescence analysis, X-ray powder diffraction analysis, scanning electron microscopy and electron polarizing microscope, a systematic study on process mineralogy of graphite ore in Shanxi Province was conducted. The results showed that this graphite ore is mainly composed of graphite, calcite, quartz, biotite, muscovite, feldspar classes(potassium feldspar and albite), diopside,tremolite and a small amount of epidote class, iron minerals and so on, while feldspar and mica altered intensely. On the basis of process mineralogy studies, the beneficiation tests were carried out with a process of a coarse grinding and a rougher flotation, followed by five regrinding and six cleaner flotation. The fixed carbon content of the concentrate is 95.92%, and the recovery of concentrate is 90.35%, while the fixed carbon content of the mixed tailings is 1.37%.
引文
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[8].邹芳,高频红外法测定碳酸盐型石墨矿中固定碳的研究.矿物岩石,2014(3):14-18.
[9].陈建帮,含碳酸盐石墨矿中固定碳含量测定方法的改进.中国非金属矿工业导刊,2013(6):30-31.
[2].周满赓,工艺矿物学在矿产资源找矿和综合利用中的应用,矿产综合利用,2012(3):7-9.
[3].欧阳志军,管俊芳,张凌燕,等,河南淅川石墨矿工艺矿物学研究.中国矿业,2016(4):137-140.
[4].李健,黄鹏,白丁,等,湖北某低品位细鳞片石墨选矿试验,金属矿山,2016(11):89-93.
[5].温志坚,汤集刚,陕西省潼关县碾头岔含金石墨矿工艺矿物学研究,铀矿地质,1999(1):28-35.
[6].张凌燕,王浩,管俊芳,等,四川南江石墨工艺矿物学研究.矿冶,2013(1):95-100+110.
[7].王金玲,方明山,劳德平,等,黑龙江某石墨矿工艺矿物学研究.中国矿业,2015(S2):186-188.
[8].邹芳,高频红外法测定碳酸盐型石墨矿中固定碳的研究.矿物岩石,2014(3):14-18.
[9].陈建帮,含碳酸盐石墨矿中固定碳含量测定方法的改进.中国非金属矿工业导刊,2013(6):30-31.
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