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巯基乙酸抑制硫化矿物的电化学机理研究 被引量:6

Electrochemical Mechanism on Interaction of TGA with Sulphide Minerals
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摘要 研究了巯基乙酸 (TGA)对硫化矿物电极电位和动电位的影响。试验表明巯基乙酸对黄铁矿、方铅矿和黄铜矿有抑制作用 ,对毒砂和闪锌矿没有抑制作用。电化学测试表明巯基乙酸对表面覆盖有捕收剂膜的硫化矿物动电位影响较小 ,能够显著降低硫化矿物的静电位 ,它对硫化矿物抑制的电化学机理为当硫化矿物的静电位EMS低于黄药氧化为双黄药的可逆电位EX-/X2 时 ,硫化矿物表面双黄药不稳定被还原 ,从而降低了可浮性 ;反之 ,双黄药保持稳定 ,不被抑制。用巯基乙酸实现两种硫化矿物浮选分离的电化学条件为 :EMS1<EX-/X2 (EX-/PbX2 ) <EMS2 。 The effects of TGA (thioglycollic acid) on the rest potential and zeta potential of sulphide minerals have been studied in this paper. Test results show that galena, pyrite and chalcopyrite can be depressed well by TGA, but sphalerite and arsenopyrite can not be depressed. Tests show that TGA has a less influence on zeta potential of sulfide minerals covered by xanthate coantings and TGA can lower the rest potential of sulphide minerals. The electrochemical mechanism of TGA depressing is as follows. The dixanthogen adsorbing on the mineral surface will be unstable and reduced when rest potential value of sulphide mineral (E MS ) is below the reversible potential of reduction of dixanthogen to xanthate (E X -/X2 ) in the presence of TGA; flotability of sulphide mineral becomes bad; inversely, the coatings of dixanthogen on mineral surface will keep stable, sulphide mineral keeps good flotability. The electrochemical condition of separation of two sulphide minerals by TGA is E MS1 <E X -/X2 (E X -/PbX2 ) < E MS2 .
作者 陈建华 冯其明 卢毅屏
机构地区 广西大学资源与环境学院 中南工业大学矿物工程系
出处 《矿产保护与利用》 2000年第6期34-38,共5页 Conservation and Utilization of Mineral Resources
关键词 巯基乙酸 硫化矿物 静电位 浮选 电化学机理 有机抑制剂 静电位 TGA sulphide minerals electrode potential separation of pulp concentrate
分类号 TD923.14 [矿业工程—选矿]
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参考文献9

  • 1[1]Nagaraj, D.R.. Structure - Activity Relationships For Copper Depressants[J]. Trans. IMM, 1986,2:17-20.
  • 2[2]Reghavan, S. R. and Unger, K.. Interaction of Thioglycollic Acid With Chalcocite, Trans [ C].Instn Min: Metall, Sect. C: Mineral Process.Extr. Metall, 1983, 92: 95 - 97.
  • 3[3]R.j.Paugh. Macromolecular Organic Depressants in Sulphide Flotation [ J ]. International Journal of Mineral Processing, 1989, 25:101 - 146.
  • 4[4]N.J. Bolin, and J.S. Laskowski. Polysaccharides in Flotation of Sulfides, Part Ⅱ. Copper/Lead Separation with Dextrin and Sodium Hydroxide [J]. International Journal of Mineral processing.,1991, 33:235 - 241.
  • 5[5]Chen Jianhua, Feng Qiming, Ou Leming, Lu Yiping. Separation of Pyrite from Chalcopyrite with Organic Depressant CTP, Transaction of Nonferrous Metals[J]. Society of China, 1998, 8 (1):132.
  • 6陈建华,冯其明,卢毅屏,欧乐明.有机抑制剂CTP与黄铁矿、黄铜矿的作用机理[J].中国有色金属学报,1998,8(1):122-125. 被引量:7
  • 7陈建华,冯其明,欧乐明,张国范,刘建国,李青春,黄崇惠,王兰英.低碱度铜硫浮选分离新型有机抑制剂应用研究[J].有色金属,1997,49(4):29-33. 被引量:6
  • 8陈建华,冯其明,欧乐明,刘洪均,黄崇惠,杨雄.低碱度铜硫分离新工艺工业试验研究[J].矿冶工程,1997,17(4):24-27. 被引量:15
  • 9[9]冯其明,陈荩.硫化矿物电化学浮选[M].长沙:中南工业大学出版社,1992.

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矿产保护与利用
2000年 第6期

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