中国矿业
中國礦業
중국광업
CHINA MINING MAGAZINE
2015年
6期
110-115
,共6页
刘红召%王威%王守敬%曹耀华%高照国
劉紅召%王威%王守敬%曹耀華%高照國
류홍소%왕위%왕수경%조요화%고조국
含锰褐铁矿%细粒%磁化焙烧%磁选%铁精矿
含錳褐鐵礦%細粒%磁化焙燒%磁選%鐵精礦
함맹갈철광%세립%자화배소%자선%철정광
manganese-containing limonite ore%fine grained%magnetizing roast%magnetic concentration%ironconcentrate
湖南某含锰铁矿铁矿物嵌布粒度细、锰含量高,本文采用磁化焙烧‐磁选工艺进行铁的可利用性研究,并对磁化焙烧产品进行了X射线衍射分析和显微形貌分析。研究表明,在焙烧温度为850℃、时间60min、煤炭加入量4%条件下得到的磁化焙烧产品,控制磨矿细度-325目85%~90%,在159kA/m的磁选场强下,经过三次精选,可以得到铁品位55.72%、锰品位为7.03%的铁精矿,铁回收率达到80.84%;磁化焙烧产品中主要矿物为磁铁矿,大部分的磁铁矿嵌布粒度细,与锰矿物、脉石以集合体的形式存在,磁铁矿难以实现单体解离。
湖南某含錳鐵礦鐵礦物嵌佈粒度細、錳含量高,本文採用磁化焙燒‐磁選工藝進行鐵的可利用性研究,併對磁化焙燒產品進行瞭X射線衍射分析和顯微形貌分析。研究錶明,在焙燒溫度為850℃、時間60min、煤炭加入量4%條件下得到的磁化焙燒產品,控製磨礦細度-325目85%~90%,在159kA/m的磁選場彊下,經過三次精選,可以得到鐵品位55.72%、錳品位為7.03%的鐵精礦,鐵迴收率達到80.84%;磁化焙燒產品中主要礦物為磁鐵礦,大部分的磁鐵礦嵌佈粒度細,與錳礦物、脈石以集閤體的形式存在,磁鐵礦難以實現單體解離。
호남모함맹철광철광물감포립도세、맹함량고,본문채용자화배소‐자선공예진행철적가이용성연구,병대자화배소산품진행료X사선연사분석화현미형모분석。연구표명,재배소온도위850℃、시간60min、매탄가입량4%조건하득도적자화배소산품,공제마광세도-325목85%~90%,재159kA/m적자선장강하,경과삼차정선,가이득도철품위55.72%、맹품위위7.03%적철정광,철회수솔체도80.84%;자화배소산품중주요광물위자철광,대부분적자철광감포립도세,여맹광물、맥석이집합체적형식존재,자철광난이실현단체해리。
According to the characteristics that the disseminated extent of iron mineral was fine ,the content of manganese was high ,the magnetizing roast followed by magnetic separation process was adopted to utilizing the iron for a kind of manganese‐containing fine grained limonite ore in Hunan province .Based on XRD analyses and microstructure analysis ,the mineral composition and dissemination relationship of roasting product were discussed .By the optimum conditions that the roasting temperature 850℃ ,the roasting time 60min ,the quantity of coal addition 4% ,the particle size of grinding -44μm 85% ~90% ,the magnetic field intensity 159kA/m ,and by three‐stage cleaning ,the iron concentrate ,with the grade of iron was 55 .72% ,the grade of Mn was 7 .03% and the recovery of Fe was 80 .84% ,was gained .In the roasting product the main minerals were magnetite and manganese oxides .Most of the magnetite was fine grained , exited in the aggregates forms with manganese mineral and gangue .The magnetite was very difficult to be liberated because of the special existing form .