非金属矿
非金屬礦
비금속광
Non-Metallic Mines
2015年
5期
23-26
,共4页
张士秋%郑奎%刘伟军%王维清%冯启明
張士鞦%鄭奎%劉偉軍%王維清%馮啟明
장사추%정규%류위군%왕유청%풍계명
石榴石%绢云母%分级重选%浮选分离%磁选分离
石榴石%絹雲母%分級重選%浮選分離%磁選分離
석류석%견운모%분급중선%부선분리%자선분리
garnet%sericite%classiifcation gravity concentration%lfotation separation%magnetic separation
四川某地绢云母石英片岩型石榴石矿的主要矿物为绢云母、黑云母、石榴石、石英及少量绿泥石。通过对原矿性质分析,将磨矿脱泥除铁后的矿样分级(+0.15 mm和-0.15 mm),采用摇床重选石榴石精矿,通过“一粗两精”的重选流程,最终获得石榴石精矿(粗粒+细粒)回收率达92.62%,实现了石榴石的有效回收。重选尾矿(云母与石英)以H2SO4作为调整剂,十二胺(DDA)作为捕收剂,通过“一粗两扫两精”浮选闭路试验流程,可获得含Al2O3品位为29.26%的云母精矿,尾矿可通过加强扫选满足石英行业标准。云母精矿在磁感应强度为1.0 T时,绢云母尾矿中Fe2O3含量仅为2.08%,实现了绢云母与黑云母的有效分离,最终达到了综合利用绢云母石英片岩型石榴石矿的目的。
四川某地絹雲母石英片巖型石榴石礦的主要礦物為絹雲母、黑雲母、石榴石、石英及少量綠泥石。通過對原礦性質分析,將磨礦脫泥除鐵後的礦樣分級(+0.15 mm和-0.15 mm),採用搖床重選石榴石精礦,通過“一粗兩精”的重選流程,最終穫得石榴石精礦(粗粒+細粒)迴收率達92.62%,實現瞭石榴石的有效迴收。重選尾礦(雲母與石英)以H2SO4作為調整劑,十二胺(DDA)作為捕收劑,通過“一粗兩掃兩精”浮選閉路試驗流程,可穫得含Al2O3品位為29.26%的雲母精礦,尾礦可通過加彊掃選滿足石英行業標準。雲母精礦在磁感應彊度為1.0 T時,絹雲母尾礦中Fe2O3含量僅為2.08%,實現瞭絹雲母與黑雲母的有效分離,最終達到瞭綜閤利用絹雲母石英片巖型石榴石礦的目的。
사천모지견운모석영편암형석류석광적주요광물위견운모、흑운모、석류석、석영급소량록니석。통과대원광성질분석,장마광탈니제철후적광양분급(+0.15 mm화-0.15 mm),채용요상중선석류석정광,통과“일조량정”적중선류정,최종획득석류석정광(조립+세립)회수솔체92.62%,실현료석류석적유효회수。중선미광(운모여석영)이H2SO4작위조정제,십이알(DDA)작위포수제,통과“일조량소량정”부선폐로시험류정,가획득함Al2O3품위위29.26%적운모정광,미광가통과가강소선만족석영행업표준。운모정광재자감응강도위1.0 T시,견운모미광중Fe2O3함량부위2.08%,실현료견운모여흑운모적유효분리,최종체도료종합이용견운모석영편암형석류석광적목적。
The main minerals of the sericite-quartz schist type garnet (Sichuan province in China) are sericite, annite, quartz, and garnet, and a small amount of chlorite. According to the properties of the ore, the sample was classiifed (+0.15 mm and -0.15 mm) after grinding and desliming operations. Through the process of one roughing two cleanings gravity separation respectively, the results show that garnet was effective separated with the recovery of 92.62%. Mica and quartz in gravity separation tailing were separated and mica was obtained with grade of 29.26%, using H2SO4 as regulator and DDA as collector, through the process of one roughing, one cleaning and two scavengings lfotation separation. Flotation tailing may achieve quartz industry standard by strengthening scavenging. Sericite and annite was effectively separated by magnetic separation at 1.0 T, and the grade of Fe2O3 in sericite tailing was only 2.08%. The process achieves the comprehensive utilization of sericite - quartz schist type garnet.