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磨矿方式对方解石颗粒形貌及浮选行为的影响 被引量:3

Effect of Grinding Method on Particle Morphology and Flotation Behavior of Calcite
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摘要 磨矿是浮选分离成功的前提。通过磨矿试验、单矿物浮选试验、润湿性测试、扫描电镜测试,研究了陶瓷棒磨与陶瓷球磨,不同磨矿方式对方解石颗粒表面形貌及浮选行为的影响。试验结果表明,经过陶瓷球磨处理后的方解石矿物颗粒相较于经过陶瓷棒磨处理后的方解石矿物颗粒有着更大的疏水性,更好的浮选回收率,更大的扁平率与伸长率,以及更小的圆度和相对宽度。 Grinding is the prerequisite for successful flotation separation.Based on the grinding test,the single mineral flotation test,the wettability test and the scanning electron microscope test,the effects of ceramic rod grinding and ceramic ball grinding on surface morphology and flotation behavior of calcite were studied.The results showed that calcite mineral particles treated by ceramic ball grinding have higher hydrophobicity,better flotation recovery,greater flatness and elongation,and smaller roundness and relative width than those treated by ceramic rod grinding.
作者 宁江峰 李茂林 崔瑞 姚伟 陈秋实 江宏强 NING Jiangfeng;LI Maolin;CUI Rui;YAO Wei;CHEN Qiushi;JIANG Hongqiang(College of Resources and Environmental Engineering,Wuhan University of Science and Technology,Wuhan 430081,China;Hubei Key Laboratory for Efficient Utilization and Agglomeration of Metallurgic Mineral Resources,Wuhan 430081,China;Changsha Research Institute of Mining and Metallurgy Limited Liability Company,Changsha 410012,China)
机构地区 武汉科技大学资源与环境工程学院 冶金矿产资源高效利用与造块湖北省重点试验室 长沙矿冶研究院有限责任公司
出处 《矿产保护与利用》 2020年第2期51-55,共5页 Conservation and Utilization of Mineral Resources
基金 冶金矿产资源高效利用与造块湖北省重点试验室开放基金(2017zy010)。
关键词 方解石 磨矿方式 颗粒形貌 浮选行为 calcite grinding method particle morphology flotation behavior
分类号 TD921.4 [矿业工程—选矿] TD972 [矿业工程—选矿]
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  • 1王毓华,陈兴华,胡业民.碳酸钠对细粒铝硅酸盐矿物分散行为的影响[J].中国矿业大学学报,2007,36(3):292-297. 被引量:33
  • 2BALTRUSAITIS J,GRASSIAN V H.Calcite(1014)surface in humid environments[J].Surface Science,2009,603(17):99-104.
  • 3POKROVSKY O S,GOLUBEV S V,SCHOTT J,et al.Calcite,dolomite and magnesite dissolution ki-netics in aqueous solutions at acid to circumneutralpH,25to 150℃and 1to 55atm PCO2:new con-straints on CO2sequestration in sedimentary basins[J].Chemical Geology,2009,265:20-32.
  • 4POKROVSKY O S,GOLUBEV S V,JORDAN G.Effect of organic and inorganic ligands on calcite andmagnesite dissolution rates at 60℃and 30atmPCO2[J].Chemical Geology,2009,265(1/2):33-43.
  • 5RUIZ-AGUDO E,KOWACZ M,PUTNIS C V,etal.The role of background electrolytes on the kinet-ics and mechanism of calcite dissolution[J].Geochimica et Cosmochimica Acta,2010,74(4):1256-1267.
  • 6HERNAINZ BERMUDZ F,CASTRO D E,CALE-RO M,et al.Flotation rate of celestite and calcite[J].Chemical Engineering Science,1996,51(1):119-125.
  • 7HU Y H,YANG F,SUN W.The flotation separa-tion of scheelite from calcite using aquaternary am-monium salt as collector[J].Minerals Engineering,2010,1016:1-3.
  • 8OZKAN A,USLU Z,DUZYOL S,et al.Correla-tion of shear flocculation of some salt-type mineralswith their wettability parameter[J].Chemical Engi-neering and Processing,2007,46:1341-1348.
  • 9FA K H,NGUYEN A V,MILLER J D.Interac-tion of calcium dioleate collector colloids with calciteand fluorite surfaces as revealed by AFM forcemeasurements and molecular dynamics simulation[J].International Journal of Mineral Processing,2006,81:166-177.
  • 10刘林,田学达,张小云.同离子效应对含钙矿物可浮性的影响[J].湘潭大学自然科学学报,1999,21(2):67-69. 被引量:7

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