Study of technological properties of the sample ethiopian iron ore of the arabian-nubian shield. Part 2. Microscopic analysis of ore samples with a thickness of +40.0+5.0 mm

V.V. Krivenko, E.V. Chuprinov, T.A. Oliinyk, V.M. Haritonov, L.V. Skliar
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Abstract

As a result of the research, the mineral composition of the mineralogical and petrological varieties of material of the 10-20 mm and 20-40 mm size classes of the studied ore sample was specified. Transparent and polished sections of the above-mentioned granulometric samples were prepared. Microscopic examination was carried out using a transmitted and reflected light microscope «Carl Zeiss Jena NU-2 Microscope». A description of the discovered minerals was completed. It was found that the main ore minerals of the studied ore are dispersed hematite and hydrohematite, and their amount is about 54.0% of the total volume. Microscopic analysis also revealed hydrohematite spherulites, including in the intergranular space in quartz aggregates. It is shown that secondary ore minerals in the studied raw materials are goethite and hydrogoethite. Microscopic analysis showed their content at the level of 4.0 %. The color of goethite and hydrogethite, which are represented by iron hydroxides of yellow, brown, brown and black color and their form in the form of nodular aggregates, spherulites of crusts, and nest-like aggregates, is also determined. It was found that the main non-metallic mineral in the studied raw material is quartz, the content of which is on average 30 %. This mineral in the sample of the studied ore is characterized by a variety of morphological features and a wide range of grain sizes – from several micrometers to several centimeters. Microscopic examination of quartz showed that it is represented by xenomorphic grains with a complex nature of fusions with other minerals, rounded and acute-angled grains, chalcedony (agat) grains and thin-prismatic crystals. The presence of a secondary non-ore mineral, which has clay properties and is represented by kaolinite, is also shown. An additional study was carried out, in which chalcopyrite – an additional component of iron ore raw materials – was analyzed. The conducted microscopic studies made it possible to draw a conclusion about the mineral and petrological characteristics of the raw material. It is shown that the type of iron ore of the Arabian-Nubian shield is similar to ores of volcanic-sedimentary origin and brown iron ores
阿拉伯-努比亚盾构中埃塞俄比亚铁矿样的工艺性质研究。第2部分。厚度为+40.0+5.0 mm的矿石样品显微分析
根据研究结果,确定了所研究矿样10-20 mm和20-40 mm粒径级矿物和岩石学品种的矿物组成。制备上述颗粒样品的透明和抛光切片。显微镜检查使用透射和反射光显微镜«卡尔蔡司耶拿NU-2显微镜»。对所发现矿物的描述已经完成。结果表明,该矿石的主要矿物为分散赤铁矿和水赤铁矿,其含量约占矿石总体积的54.0%。显微分析还发现了水赤铁矿球晶,包括石英集合体的晶间空间。结果表明,所研究原料中次生矿石矿物主要为针铁矿和水针铁矿。显微分析显示其含量为4.0%。确定了以黄色、棕色、棕色和黑色的铁氢氧化物为代表的针铁矿和水针铁矿的颜色,并确定了针铁矿和水针铁矿的球状聚集体、结壳球晶和巢状聚集体的形态。结果表明,所研究的原料中非金属矿物主要为石英,其含量平均为30%。所研究的矿石样品中的这种矿物具有多种形态特征和广泛的粒度范围-从几微米到几厘米。石英的显微检查表明,它具有与其他矿物融合的复杂性质的异形颗粒,圆形和锐角颗粒,玉髓(玛瑙)颗粒和薄棱柱形晶体。还显示了一种次要的非矿石矿物的存在,它具有粘土性质,以高岭石为代表。进行了另一项研究,分析了铁矿石原料的附加成分黄铜矿。通过显微研究,可以得出有关原料矿物和岩石学特征的结论。结果表明,阿拉伯-努比亚盾构铁矿类型与火山-沉积成因铁矿和棕铁矿相似
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