金属矿山
金屬礦山
금속광산
METAL MINE
2015年
8期
96-99
,共4页
张其东%袁致涛%李小黎%卢冀伟
張其東%袁緻濤%李小黎%盧冀偉
장기동%원치도%리소려%로기위
含滑石硫化钼矿%工艺矿物学%结构构造%嵌布特征
含滑石硫化鉬礦%工藝礦物學%結構構造%嵌佈特徵
함활석류화목광%공예광물학%결구구조%감포특정
Talcose-molybdenite ore%Process mineralogy%Texture and structure%Distribution characteristics
为给河南某钼矿资源合理开发利用提供依据,利用国际先进的MLA矿物自动定量分析技术,结合光学显微镜、化学物相分析等综合技术手段对其进行了工艺矿物学分析。结果表明:矿石中主要有用矿物为辉钼矿,其余金属硫化矿为黄铁矿、闪锌矿、黄铜矿,金属氧化物主要为磁铁矿和赤铁矿;辉钼矿以中粗粒级嵌布为主,部分呈星点状和浸染状分布,嵌布粒度较细,需细磨才能单体解离,但细磨容易造成泥化,且矿石中绿泥石、蛇纹石、黏土矿物等与辉钼矿紧密共生,易对辉钼矿浮选产生不利影响。建议采用阶段磨矿阶段浮选流程处理该辉钼矿石。
為給河南某鉬礦資源閤理開髮利用提供依據,利用國際先進的MLA礦物自動定量分析技術,結閤光學顯微鏡、化學物相分析等綜閤技術手段對其進行瞭工藝礦物學分析。結果錶明:礦石中主要有用礦物為輝鉬礦,其餘金屬硫化礦為黃鐵礦、閃鋅礦、黃銅礦,金屬氧化物主要為磁鐵礦和赤鐵礦;輝鉬礦以中粗粒級嵌佈為主,部分呈星點狀和浸染狀分佈,嵌佈粒度較細,需細磨纔能單體解離,但細磨容易造成泥化,且礦石中綠泥石、蛇紋石、黏土礦物等與輝鉬礦緊密共生,易對輝鉬礦浮選產生不利影響。建議採用階段磨礦階段浮選流程處理該輝鉬礦石。
위급하남모목광자원합리개발이용제공의거,이용국제선진적MLA광물자동정량분석기술,결합광학현미경、화학물상분석등종합기술수단대기진행료공예광물학분석。결과표명:광석중주요유용광물위휘목광,기여금속류화광위황철광、섬자광、황동광,금속양화물주요위자철광화적철광;휘목광이중조립급감포위주,부분정성점상화침염상분포,감포립도교세,수세마재능단체해리,단세마용역조성니화,차광석중록니석、사문석、점토광물등여휘목광긴밀공생,역대휘목광부선산생불리영향。건의채용계단마광계단부선류정처리해휘목광석。
To develop and utilize talcose-molybdenite ore in Henan reasonably and efficiently,the research on process mineralogy was detailedly investigated by the international automatic quantitative mineral technology MLA combining with the means of optical microscopy,chemical phase analysis,etc. . The results show that molybdenite is the main valuable mineral and the rest of sulfide minerals are pyrite,sphalerite and chalcopyrite. Magnetite and hematite are the main metal oxide minerals in the ore. Most of molybdenite is disseminated in forms of coarse grain in the ore,however,part of molybdenite is distributed in the ore in forms of stellate and disseminated structure,which is very fine and not easy to liberate completely. Fine grinding is necessary,but it is harmful for flotation after fine grinding because clay mineral,chlorite and serpentine are closely associated with molybdenite in the ore. Based on the findings above,it is recommended that the beneficiation adopts the technical route with stages grinding for this ore.