金属矿山
金屬礦山
금속광산
Metal Mine
2015年
10期
100-103
,共4页
李晶%许英霞%甘德清%刘殿龙%郭勃巍%李占金
李晶%許英霞%甘德清%劉殿龍%郭勃巍%李佔金
리정%허영하%감덕청%류전룡%곽발외%리점금
豆子沟铁矿石%工艺矿物学%嵌布特征
豆子溝鐵礦石%工藝礦物學%嵌佈特徵
두자구철광석%공예광물학%감포특정
Douzigou iron ore%Process mineralogy%Dissemination characteristics
冀东豆子沟铁矿石铁品位为35. 80%,铁主要以磁铁矿形式存在,其次为赤铁矿、碳酸铁,脉石矿物主要为石英、角闪石和辉石. 为给该矿石开发利用提供依据,对其进行了工艺矿物学分析. 结果表明:矿石结构主要为半自形—他形晶粒状结构,其次为自形晶粒结构、压碎结构、交代残留结构. 矿石构造以条纹状和条带状构造为主,其次为片麻状构造. 磁铁矿主要呈半自形—他形粒状赋存于石英等脉石矿物中,少数呈八面体型或立方体型赋存于石英或角闪石等脉石矿物中. 矿石中磁铁矿嵌布粒度微细,64. 01%的磁铁矿分布在0. 02~0. 16 mm粒级,12. 59%分布在-0. 02 mm粒级,这部分磁铁矿需细磨才能实现单体解离,但细磨容易造成泥化影响选矿指标,故建议采用阶段磨矿阶段选别工艺.
冀東豆子溝鐵礦石鐵品位為35. 80%,鐵主要以磁鐵礦形式存在,其次為赤鐵礦、碳痠鐵,脈石礦物主要為石英、角閃石和輝石. 為給該礦石開髮利用提供依據,對其進行瞭工藝礦物學分析. 結果錶明:礦石結構主要為半自形—他形晶粒狀結構,其次為自形晶粒結構、壓碎結構、交代殘留結構. 礦石構造以條紋狀和條帶狀構造為主,其次為片痳狀構造. 磁鐵礦主要呈半自形—他形粒狀賦存于石英等脈石礦物中,少數呈八麵體型或立方體型賦存于石英或角閃石等脈石礦物中. 礦石中磁鐵礦嵌佈粒度微細,64. 01%的磁鐵礦分佈在0. 02~0. 16 mm粒級,12. 59%分佈在-0. 02 mm粒級,這部分磁鐵礦需細磨纔能實現單體解離,但細磨容易造成泥化影響選礦指標,故建議採用階段磨礦階段選彆工藝.
기동두자구철광석철품위위35. 80%,철주요이자철광형식존재,기차위적철광、탄산철,맥석광물주요위석영、각섬석화휘석. 위급해광석개발이용제공의거,대기진행료공예광물학분석. 결과표명:광석결구주요위반자형—타형정립상결구,기차위자형정립결구、압쇄결구、교대잔류결구. 광석구조이조문상화조대상구조위주,기차위편마상구조. 자철광주요정반자형—타형립상부존우석영등맥석광물중,소수정팔면체형혹립방체형부존우석영혹각섬석등맥석광물중. 광석중자철광감포립도미세,64. 01%적자철광분포재0. 02~0. 16 mm립급,12. 59%분포재-0. 02 mm립급,저부분자철광수세마재능실현단체해리,단세마용역조성니화영향선광지표,고건의채용계단마광계단선별공예.
The iron grade of iron ore from Douzigou,Eastern Hebei,is 35. 80%. Iron mainly exists in form of magnetite, followed by hematite and iron carbonate. Gangue minerals are mainly quartz, hornblende and pyroxene. Process mineralogy characteristics of the ore were carried out,to provide technological basis for the development of the ore. The results showed that main mineral structure is hypidiomorphic-allotriomorphic structure,followed by euhedral-granular structure,crush structure and metasomatic relict structure. While the ore textures is mainly streaky and banded texture,followed by gneissic texture. Magnetite mainly disseminated among gangue minerals,like quartz,in form of hypidiomorphic-allotriomorphic structure,few octahedral or cube was hosted in gangue minerals. The granule of the magnetite in ore is so tiny that 64. 01% is distributed in 0. 02~0. 16 mm,12. 59% in-0. 02 mm. Thus the magnetite with smaller particle size needs fineness grinding to be liberated. It is necessa-ry to adopt the process of stage-grinding and stage separation to prevente argillization on beneficiation indexes caused by pul-verizeng impact.
