%0 Journal Article %T 东鞍山贫铁矿石磁选预富集行为 %A 余建文 %A 韩跃新 %A 李艳军 %A 高鹏 %J 东北大学学报(自然科学版) %D 2019 %R 10.12068/j.issn.1005-3026.2019.01.018 %X 摘要 针对东鞍山贫铁矿石(Fe质量分数34.60%)中含有赤铁矿、磁铁矿和少量的菱铁矿,提出了一种弱磁粗选-高梯度扫选的预富集工艺,并借助XRD、铁的化学物相分析及扫描电镜(SEM)考察了磁场强度和原料磨矿细度对东鞍山铁矿石预富集行为的影响.结果表明,在磨矿细度-0.074mm占70%(质量分数)、弱磁粗选磁场强度120mT、高梯度扫选Ⅰ磁场强度300mT及高梯度扫选Ⅱ磁场强度800mT的条件下,可获得Fe质量分数42.67%、回收率95.45%的预富集精矿;磁铁矿富集于弱磁粗选作业中,赤铁矿和菱铁矿在高梯度扫选作业中得到有效富集,尾矿中丢失的铁矿物主要为微细粒赤铁矿(<10μm),由于受到的磁性捕获力弱而无法得到回收.</br>Abstract:A pre-enrichment process of low-intensity magnetic roughing followed by high-gradient magnetic scavenging was proposed, and the effects of magnetic field intensity and grinding fineness on pre-enrichment behaviors of low-grade(w(TFe)=34.60%) Donganshan iron ore simultaneously containing hematite, magnetite and a bit of siderite were studied by XRD, chemical phase analysis of iron, and scanning electron microscope(SEM). The results showed that the optimized grinding fineness of raw ore was 70% passing 0.074mm, the magnetic field intensity for roughing, scavenging Ⅰ and Ⅱ were 120mT, 300mT and 800mT, respectively. Under the optimized conditions, a magnetic pre-concentrate assaying 42.67% iron (mass fraction) with an iron recovery of 95.45% was achieved. The analyses revealed that ferromagnetic magnetite was enriched in low-intensity magnetic concentrate, and weakly magnetic hematite and siderite were recovered successfully by high-gradient magnetic separation. However, some ultra-fine hematite particles(<10μm) were lost in tailing due to their weak magnetic trapping force. %K 贫铁矿石 %K 赤铁矿 %K 磁铁矿 %K 磁选 %K 预富集行为 %K 磁性捕获力< %K /br> %K Key words: low-grade iron ore hematite magnetite magnetic separation pre-enrichment behaviors magnetic trapping force %U http://xuebao.neu.edu.cn/natural/CN/abstract/abstract10797.shtml