收稿日期: 2016-06-28
修回日期: 2016-12-19
网络出版日期: 2017-05-12
基金资助
国家级大学生创新创业训练计划项目“顽石作为再磨介质取代钢球的磨矿行为试验研究”(编号:201510407002)资助
The Law of Grinding Gold-Containing Copper Sulfide Ores Under Stone for Grinding Media
Received date: 2016-06-28
Revised date: 2016-12-19
Online published: 2017-05-12
以半自磨机排出的顽石作为磨矿介质,考察了顽石自磨磨损规律及其自磨产品粒度分布和顽石磨矿时顽石磨损规律及其磨矿产品粒度分布。结果表明:在不同的自磨磨矿时间、充填率和磨矿浓度下,顽石自磨损后产生的磨矿细度均在-0.125 mm以下;顽石作为磨矿介质时,在充填率为50%,浓度为60%,磨矿时间为19 min,入磨矿样为500 g的磨矿条件下,能获得-45 μm含量为60%的磨矿产品,其中新生-45 μm含量为18%左右;与钢球磨矿时矿物表面被大量的铁絮状物覆盖而遭到严重腐蚀相比,顽石磨矿时颗粒表面有少量絮状物,没有腐蚀带,矿物的轮廓平整、干净。顽石是一种细磨过程较为理想的磨矿介质。
雷阿丽 , 吴彩斌 , 叶景胜 , 江领培 , 倪帅男 , 何水春 . 顽石作磨矿介质下含金铜硫矿的磨矿规律研究[J]. 黄金科学技术, 2017 , 25(1) : 121 -126 . DOI: 10.11872/j.issn.1005-2518.2017.01.121
The stone which is discharged from semi-autogenous mill is taken for grinding medium,to investigate the self-grinding abrasion law and product particle size distribution,stone grinding abrasion law and grinding mineral particle size distribution when the stone is used as grinding medium .The results show that rocks since the wear of grinding fineness are below 0.125 mm under the condition of different grinding time,filling ratio and grinding concentration;When grinding stone as grinding medium,under the grinding conditions of filling rate is 50%,the concentration is about 60%,the grinding time is 19 min,the into grinding sample is 500 g ,it can obtain grinding with -45 microns content of 60%,the new born gamma -45 microns quantity of approximately 18%;Compared with a steel ball grinding mineral surface is covered by a large number of iron floc and severe corrosion,stone grinding particle surface with a small amount of floc when the stone as grinding medium,with no corrosion,the outline of the mineral formation is smooth and clean.Stone is a fine grinding process ideal grinding media.
[1] Wang Zehong,Cai Shan,Deng Shanzhi,et al.Effect of grinding aids on the fracture energy of mica[J].Metal Mine,2010(6):80-84.[王泽红,蔡珊,邓善芝,等.助磨剂对云母破裂能的影响[J].金属矿山,2010(6):80-84.]
[2] Duan Xixiang.Research of selective grinding application[J].Yunnan Metallurgy,1990,19(3):21-24.[段希祥.选择性磨矿的应用研究[J].云南冶金,1990,19(3):21-24.]
[3] Liu Quanjun,Jiang Meiguang.Technological development of ore crushing and grinding and their current situation[J].Yunnan Metallurgy,2012,41(5):21-28.[刘全军,姜美光.碎矿与磨矿技术发展及现状[J].云南冶金,2012,41(5):21-28.]
[4] Xie Minxiong,Wang Xiting.The performance analysis and evaluation of the grinding system in concentrator[J].ChinaMine Engineering, 2010,39(2):20-24,41.[谢敏雄,王夕亭.选矿厂磨矿系统效能分析与评判[J].中国矿山工程,2010,39(2):20-24,41.]
[5] Cheng Xu,Wu Haojie,Wang Zehong.The research progress of effect on grinding media system on grinding process[J].Metal Mine, 2013(9):104-107.[程旭,武豪杰,王泽红.介质制度对磨矿过程影响的研究进展[J].金属矿山,2013(9):104-107.]
[6] Cui Xueru,Liu Houqian,Li Mingdong.Relation between grinding medium and grinding efficiency[J].Mining Engineering,2005,3(6):35-37.[崔学茹,刘厚乾,李明东.磨矿介质与磨矿效率剖析[J].矿业工程,2005,3(6):35-37.]
[7] Zhao Yudong.Application and development of mixing type mill[J].Mining & Processing Equipment,2001,29(1):18-20.[赵昱东.搅拌型磨矿机应用与发展[J].矿山机械,2001,29(1):18-20.]
[8] Shi Guiming,Wu Caibin,Xiao Liang,et al.Experimental study of grinding system optimization for a tungsten polymetallic ore[J].Nonferrous Metals Science and Engineering,2013,4(5):79-84.[石贵明,吴彩斌,肖良,等.柿竹园钨多金属矿优化磨矿系统实验室研究[J].有色金属科学与工程,2013,4(5):79-84.]
[9] Sun Guiji.Studies on improving grinding efficiency[J].Gold,1989,10(10):30-34.[孙贵吉.提高磨矿效率的探讨[J].黄金,1989,10(10):30-34.]
[10] Hu Jianguo,Mao Shiyi.The way to raise grinding efficiency[J].Jiangxi Nonferrous Metals,2002,16(2):11-12,21.[胡建国,毛世意.浅谈提高磨矿效率的途径[J].江西有色金属,2002,16(2):11-12,21.]
[11] Zhang Jinrui,Liang Bing,Zhao Libing.Technology development and trend on the grinding medium of the ball mill[J].Non-Ferrous Mining and Metallurgy,2013,29(1):42-45,54.[张锦瑞,梁冰,赵礼兵.球磨机机理与磨矿介质制度研究现状及发展趋势[J].有色矿冶,2013,29(1):42-45,54.]
[12] Wang Peng.Research on application of grinding media to beneficiation production[J].Metal Mine,2010(1):132-134.[王鹏.选矿磨矿介质生产研究应用的思考[J].金属矿山,2010(1):132-134.]
/
〈 |
|
〉 |