摘要
以兰坪氧化铅锌矿为研究对象,进行-1+0.074 mm、-2+1 mm、-3+2 mm、-5+3 mm四个单粒级物料的磨矿动力学试验,在此基础上利用拉苏莫夫球径经验公式,建立了氧化铅锌矿球径模型,并根据各类球径配比与被磨混合物料中各粒级的质量百分率大体相同的原则,计算出适宜初装球制度为:Φ3mm、Φ8mm、Φ14mm、Φ18mm钢球分别占15%、30%、38%、17%。用此装球制度对原矿(-2+0.00 mm)进行磨矿,与经验装球制度相比,磨矿产物中矿泥(难浮粒级-0.01 mm)产率降低5.18%,中等可浮粒级-0.02+0.01 mm降低1.34%,易浮粒级+0.02 mm产率提高6.52%,实现了选择性磨矿,改善了氧化锌矿物的浮选环境,从而使氧化锌精矿品位提高0.62%、回收率提高3.45%,锌总回收率从83.24%提高到86.69%。
Grinding kinetics tests were performed for mineral materials with single sizes of-1+0.074 mm,-2+1 mm,-3+2 mm and-5+3 mm respectively,which were obtained from Lanping lead-zinc oxide ore mine.Based on that,the ball diameter model was established for lead-zinc oxide ore by using Razumov’s empirical ball diameter formula.According to the principle that the ratios of various ball diameters are basically the same as the mass percentages of single-sized materials in mixed milled materials,the appropriate initial ball system was:Φ3 mm,Φ8 mm,Φ14 mm andΦ18 mm steel balls accounting for 15%,30%,38%,and 17%respectively.Then,this ball system was used for grinding raw ore(-2+0.00 mm),and compared with the empirical ball system.The yield of the slime(-0.01 mm,unable to float)was reduced by 5.18%,the yield of the moderately floatable particles with the size of-0.02+0.01 mm was reduced by 1.34%,and the yield of the easily floatable particles with the size of+0.02 mm was increased by 6.52%.Selective grinding was realized and the flotation environment for zinc oxide minerals was improved,thus resulting in an increase of 0.62%in the concentrate grade of zinc oxide and an increase of 3.45%from 83.24%to 86.69%in the total zinc recovery rate.
作者
曾茂青
赵培樑
刘全军
邓荣东
ZENG Mao-qing;ZHAO Pei-liang;LIU Quan-jun;DENG Rong-dong(Key Laboratory of Geological Metallogenesis and Mineral Resources Utilization in Sanjiang Region,Ministry of Land and Resources,Kunming 650218,China;Faculty of Land and Resource Engineering,Kunming University of Science and Technology,Kunming 650093,China)
出处
《矿冶》
CAS
2020年第4期44-49,共6页
Mining And Metallurgy
基金
国土资源部公益性行业科研专项经费资助项目(201011031-2)。
关键词
氧化铅锌矿
磨矿动力学
建立球径模型
选择性磨矿
lead-zinc oxide ore
grinding kinetics
establishment of ball diameter model
selective grinding