Simple magnetic separation for a certain magnetite mine with ultrafine disseminated lean ores has resulted in low performance, as the fine sizes and aggregation of ground mineral particles have caused inefficient recovery of the ultrafine minerals. In this study, we attempt to increase the apparent sizes of target mineral particles, and improve the separation indices, by using a multi-stage grinding-dispersion-selective flocculation-weak magnetic separation process. The results showed that under the conditions of 500 g/t sodium hexametaphospate (SHMP) as dispersant, 750 g/t carboxymethyl starch (CMS) as flocculant, agitating at 400 rpm for 10 min, with slurry pH 11, and final grinding fineness of 93.5% less than 0.03 mm, the obtained concentrate contained 62.82% iron, with recovery of 79.12% after multi-stage magnetic separation. Compared to simple magnetic separation, the concentrate?¢????s iron grade increased by 1.26%, and a recovery rate by 5.08%. Fundamental analysis indicated that, in a dispersed state of dispersion, magnetite particles had weaker negative surface charges than quartz, allowing the adsorption of negative CMS ions via hydrogen bonding. Consequently, the aggregate size of the initial concentrate increased from 24.30 to 38.37 ????m, accomplishing the goal of selective flocculation, and increasing the indices of separation.
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机译:具有超细散布的贫矿的某些磁铁矿的简单磁选导致性能低下,因为细小尺寸和聚集的矿物颗粒会导致超细矿物的回收效率低下。在这项研究中,我们试图通过使用多级研磨-分散-选择性絮凝-弱磁选工艺来增加目标矿物颗粒的表观尺寸,并改善分离指数。结果表明,在500 g / t六偏磷酸钠(SHMP)作为分散剂,750 g / t羧甲基淀粉(CMS)作为絮凝剂的条件下,以400 rpm搅拌10分钟,浆料pH为11,最终研磨细度为小于0.03mm的93.5%,得到的精矿含铁62.82%,经多级磁选后回收率为79.12%。与简单的磁选法相比,精矿中铁的品位提高了1.26%,回收率提高了5.08%。基本分析表明,在分散体的分散状态下,磁铁矿颗粒的负表面电荷比石英弱,从而可通过氢键吸附CMS负离子。因此,初始浓缩物的总尺寸从24.30增加到38.37μm,达到了选择性絮凝的目的,并增加了分离指数。
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