论MPQ系列超细滚球磨机的设计及应用
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摘要
MPQ系列超细滚磨机的研发设计及应用,弥补了国内在1000目-1500目细度段制粉设备的空白。目前国内并没有特别合适的成熟制超细微粉设备,业内一般采用雷蒙磨、风扫球磨机、气流磨等设备用于制粉,存在着单位能耗高,产能小等缺陷。该产品具有磨粉效率高、电耗低、产品细度易于调节、设备工艺流程简单、占地面积小、噪音低、扬尘小、使用维护简单、运行费用低、耐磨材料消耗少等优点,市场前景及容量很大。
Development, design and application of MPQ series ultra-fine grinding mill have made up for blank of domestic1000 mesh-1500 mesh fine section pulverizing equipment. At present, there is no particularly suitable mature ultra-fine powder production equipment in China. Raymond mill, air sweep ball mill, air mill and other equipments are generally applied in powder production industry. There are some shortcomings such as high energy consumption per unit and low production capacity. The product has many advantages, such as high grinding efficiency, low power consumption, easy adjustment of product fineness, simple equipment process, small floor area, low noise, small dust, simple use and maintenance, low operating cost, low wear-resistant material consumption, etc, which has a great market prospect and capacity.
Development, design and application of MPQ series ultra-fine grinding mill have made up for blank of domestic1000 mesh-1500 mesh fine section pulverizing equipment. At present, there is no particularly suitable mature ultra-fine powder production equipment in China. Raymond mill, air sweep ball mill, air mill and other equipments are generally applied in powder production industry. There are some shortcomings such as high energy consumption per unit and low production capacity. The product has many advantages, such as high grinding efficiency, low power consumption, easy adjustment of product fineness, simple equipment process, small floor area, low noise, small dust, simple use and maintenance, low operating cost, low wear-resistant material consumption, etc, which has a great market prospect and capacity.
引文
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[8]佚名.绿碳化硅(GC)微粉[J].机电新产品导报,1998(Z2):110.Anonymous.Silicon Green Carbide(GC)Powder[J].Guide of New Mechanical and Electrical Products,1998(Z2):110.
[9]刘振东,王建民,邓展.基于单纯形法的磨机给料控制的研究与设计[J].新型工业化,2018,8(8):60-65.LIU Zhen-dong,WANG Jian-min,DENG Zhan.Research and Design of Mill Feed Control Based on Simplex Method[J].The Journal of New Industrialization,2018,8(8):60-65.
[10]黄建华.硅片线锯废料中硅粉回收的研究[J].新型工业化,2017,7(7):14-18.HUANG Jian-hua.Research on Silicon Powder Recovery from Silicon Wafer Wire Saw Waste[J].The Journal of New Industrialization,2017,7(7):14-18.
[2]张树伟,李长青.水泥厂原料配料站的工艺设计优化方案[J].中国建材科技,2016,25(4):37-38.ZHANG Shu-wei,LI Chang-qing.Process Design Optimization Scheme of Raw Material Batching Station of Cement Plant[J].China Building Materials Science and Technology,2016,25(4):37-38.
[3]付瑜,张明星,吕娟,等.高效气流分级机与球磨机一体化工艺制备超细水泥[J].水泥,2015(12):4-6.FU Yu,ZHANG Xing-xing,LU Juan,et al.Preparation of Superfine Cement by Integration of High Efficiency Air Classifier and Ball Mill[J].Cement,2015(12):4-6.
[4]吴威.燃煤发电厂褐煤干燥系统的集成分析[D].华北电力大学,2013.WU Wei.Integrated Analysis of Lignite Drying System in Coal-fired Power Plant[D].North China Electric Power University,2013.
[5]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.LIU Quan-jun,JIANG Mei-guang.Development Situation of Crushing and Grinding Technology[J].Yunnan Metallurgy,2012,41(5):21-28.
[6]张书杰.行星搅拌球磨机超细粉碎机理分析[J].山东化工,2011,40(6):28-30.ZHANG Shu-jie.Analysis of Superfine Grinding Mechanism of Planetary Stirring Ball Mill[J].Shandong Chemical Industry,2011,40(6):28-30.
[7]钱金旺,王友联,张体军.超细球磨机应用于重钙生产的研究[J].中国科技信息,2008(1):52+55.QIAN Jin-wang,WANG You-lian,ZHANG Ti-jun.Application Research on Superfine Ball Mill in Heavy Calcium Production[J].China Science and Technology Information,2008(1):52+55.
[8]佚名.绿碳化硅(GC)微粉[J].机电新产品导报,1998(Z2):110.Anonymous.Silicon Green Carbide(GC)Powder[J].Guide of New Mechanical and Electrical Products,1998(Z2):110.
[9]刘振东,王建民,邓展.基于单纯形法的磨机给料控制的研究与设计[J].新型工业化,2018,8(8):60-65.LIU Zhen-dong,WANG Jian-min,DENG Zhan.Research and Design of Mill Feed Control Based on Simplex Method[J].The Journal of New Industrialization,2018,8(8):60-65.
[10]黄建华.硅片线锯废料中硅粉回收的研究[J].新型工业化,2017,7(7):14-18.HUANG Jian-hua.Research on Silicon Powder Recovery from Silicon Wafer Wire Saw Waste[J].The Journal of New Industrialization,2017,7(7):14-18.