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平行和垂直交叉排列组合棒介质高梯度磁选对比研究 被引量:1

COMPARATIVE INVESTIGATION BETWEEN PARALLEL AND PERPENDICULAR COMBINATION MATRICES IN HIGH GRADIENT MAGNETIC SEPARATION
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摘要 为研究棒介质排列组合对高梯度磁选效果的影响,应用"单元介质分析法",选择铁品位38.10%的细粒赤铁矿,进行棒介质丝平行与垂直交叉排列组合对比研究。结果表明,与单一丝径棒介质比较,不同丝径组合式棒介质可以兼顾对不同粒级磁性矿粒的选择性捕获,有利于提高分选指标,且组合程度越高,提升分选指标越明显;介质丝平行与垂直交叉排列组合各有特点,后者捕获概率大些,但夹杂现象多些,因此精矿产率和铁回收率更高,但精矿品位更低。 With slice matrix analysis method, the high gradient magnetic separation performances for a fine hematite ore assaying 38.10% Fe are comparatively investigated between parallel and perpendicular combinations for rod elements in rod matrix, to study the effect of rods combination on the separation performance. The results indicate that the combinative rod matrix consisting of different diameter rod elements achieves a simultaneous selec- tivity for coarse and fine magnetic particles, improving the separation performance, and the more deeply are the rod elements combined, the more the performance is improved. The parallel and perpendicular combinations showed different separation characteristics, and the perpendicular one has a higher capture probability for magnetic particles and an increased inclusion for intergrowths and gangues, resulting in improved concentrate mass and iron recovery with deterioration in concentration grade.
作者 游志程 陈禄政 刘文博 郑永明
机构地区 昆明理工大学国土资源工程学院
出处 《矿冶》 CAS 2016年第4期25-28,共4页 Mining And Metallurgy
关键词 脉动高梯度磁选 组合式棒介质 排列组合 赤铁矿 pulsating high gradient magnetic separation combinative rod matrix rods combination hematite ore
分类号 TD924.1 [矿业工程—选矿]
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参考文献11

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二级参考文献21

  • 1陈禄政.一种优化磁介质排列组合的单元介质分析方法:中国,201210074235.6[P].2012-07-25.
  • 2Chen Lu-zheng,Xiong Da-he,Huang Hui-chun.Pulsating high-gradient magnetic separation of fine hematite from tailings[J].Minerals & Metallurgical Processing,2009,26(3):163-168.
  • 3Chen Lu-zheng,Liao Guo-ping,Qian Zhi-hua,et al.Vibrating high gradient magnetic separation for purificaiton of iron impurities under dry condition[J].International Journal of Mineral Processing,2012,102-103:136-140.
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  • 7Baik S K,Ha D W,Ko R K,et al.Magnetic field and gradient analysis around matrix for HGMS[J].Physica C,2010,470 (20):1831-1836.
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  • 10Chen L Z,Liao G P,Qian Z H. Vibrating high gradient magnetic separation for purification of iron impurities under dry condition[J].{H}International Journal of Mineral Processing,2012.136-140.

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矿冶
2016年 第4期

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