1) Panzhihua ilmenite
攀枝花钛铁矿
1.
Through comparing different effects of Panzhihua ilmenite and fore-oxidized ore on the grade of thick synthetic rutile and the pulverization rate of product after acid leaching,it is described that fore-oxidation has functions of improving the grade of thick synthetic rutile and reducing the pulverization rate of products.
论述了预氧化机理、酸浸反应机理和细化机理,并通过攀枝花钛铁矿与预氧化矿在1000t/a生产装备上的对比试验,考察了两种矿对酸浸后粗金红石品位及产品细料率的影响,阐明了预氧化有提高粗金红石品位、降低产品细料率的作用。
2) Panzhihua V-Ti Magnetite Mine
攀枝花钒钛磁铁矿矿区
1.
The Geochemical Characteristics of Heavy Metals in Soils in the Panzhihua V-Ti Magnetite Mine and the Pollution Evaluation;
在分析分布特征基础上,对重金属进行了污染物负荷指数评价,结果发现:1)攀枝花钒钛磁铁矿矿区表层土壤大部分属于中等污染,少数属于强污染,个别达到了极强污染;2)Co、V、Cu、Cd、Ti几种元素的最高污染系数大,Zn、Mn、Ni、Cr四种元素的最高污染系数次之,Hg、Pb两种元素的最高污染系数较小,As的最高污染系数最小;3)从各区域的污染物负荷指数来看,排土场周围和朱矿采矿场下游附近污染程度较大,远离矿区以及矿区上游污染较小。
3) Panzhihua V-Ti-Magnetite
攀枝花钒钛磁铁矿
1.
Geochemical Characteristics of Heavy Metals in Different Media in Panzhihua V-Ti-Magnetite Zone
攀枝花钒钛磁铁矿区重金属元素地球化学特征
4) Panzhihua iron mine
攀枝花铁矿
1.
After measuring the compressive strength,Banong strength and destroy-resisting energy density of the natural ore block from Panzhihua iron mine,a point of sudden change of these factors versus the size of crushed ore was found,where different strength type exhibited for the iron ore with the size exceed or beneath.
通过测定攀枝花铁矿矿石自然矿块的抗压强度、巴隆强度和抗破坏能量密度,找到它们随粒度变化趋势的突变点,说明大于或小于此突变点的粒度时,矿石会表现出不同的强度类型。
5) Panzhihua ilmenite concentrate
攀枝花钛精矿
1.
Thermodynamic equilibrium of Multcomponent Multphase systems to prepare artificial rutile by pressure-leached process of Panzhihua ilmenite concentrate treated with hydrochloric acid are investigated.
本论文研究攀枝花钛精矿盐酸法加压浸出人造金红石技术中的多组分多相的热力学平衡和加压浸出实验规律。
补充资料:钛铁矿
钛铁矿 ilmenite 铁、钛的氧化物矿物。成分为FeTiO3。含TiO2 52.66%,是提取钛和二氧化钛的主要矿物。三方晶系,晶体常成板状,集合体呈块状或粒状。钢灰或铁黑色,金属光泽,莫氏硬度5~6,比重4.7~4.78,具弱磁性。作为副矿物见于火成岩和变质岩中,也可形成砂矿。著名矿山有加拿大魁北克的埃拉德湖,挪威的克拉格罗等。滨海砂矿著名产地有印度特兰万科尔,美国佛罗里达,澳大利亚东海岸等。中国四川攀枝花铁矿中,钛铁矿分布于磁铁矿颗粒之间或裂理中,并形成大型矿床。 |
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