摘要
为了给大规模合理开发本钢集团贾家堡子铁矿8号矿体矿石资源提供技术依据,针对该矿石磁铁矿嵌布粒度微细的特点,采用大块干式磁选抛废—单一弱磁选和大块干式磁选抛废—弱磁选—反浮选两种工艺流程进行了选矿试验。结果表明:前者在-0.030 8 mm占90%的最终磨矿细度下,可获得铁品位为65.76%、回收率为75.93%的铁精矿;后者在-0.043 mm占90%的最终磨矿细度下,可获得铁品位为65.47%、回收率为74.43%的铁精矿。两流程技术指标相近,采用哪种流程取决于技术经济比较。
In order to provide technical basis for rationally developing mineral resources at No.8 ore-body of Benxi Iron and Steel Group in large-scale,and in view of the characteristics of micro-fine embedded magnetite,the beneficiation tests were carried by the process of bulk dry magnetic separation for tailings removal-single low intensity magnetic separation and the process of bulk dry magnetic separation-low intensity magnetic separation-reverse flotation.The results showed that iron concentrate with Fe grade of 65.76% and recovery of 75.93% was obtained by the former under the final grinding fineness-0.030 8 mm 90%;Iron concentrate with Fe grade of 65.47%,recovery of 74.43% was obtained by the latter under the grinding fineness of-0.043 mm 90%.Since the technical indexes obtained by the two processes are similar,which one you adopted depends on the technical and economical comparison.
出处
《金属矿山》
CAS
北大核心
2011年第10期91-95,共5页
Metal Mine
关键词
贾家堡子铁矿8号矿体
微细粒嵌布磁铁矿
大块干式预选
弱磁选
反浮选
No.8 ore-body of Jiajiapuzi iron ore
Micro-fine embedded magnetite
Bulk dry concentration
Low intensity magnetic separation
Reverse flotation
