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Ni-Fe-Cu惰性金属阳极的抗氧化和耐蚀性能 被引量:12

Anti-oxidation and anti-corrosion properties of Ni-Fe-Cu inert metal anodes
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摘要 对Ni Fe Cu合金的抗氧化和耐熔盐腐蚀性能进行了研究。结果显示,该合金的氧化动力学曲线符合抛物线规则。静态电解质中的溶解腐蚀速率随温度的增高和NaF与AlF3的摩尔分子比的降低而增大。在不同电解条件下,组成为NaF AlF3 NaCl CaF2 Al2O3的电解质体系中电解时,该阳极周围产生大量气泡,槽电压在3.6~4.2之间波动,阳极的电解极化腐蚀速率随电解质中氧化铝浓度的增高、温度的降低而减小,产品铝的纯度达到97%~98%。 The anti-oxidation and anti-corrosion properties in molten cryolite of Ni-Fe-Cu alloys were studied. The results indicate that the oxidation kinetic curves follow the parabolic law. The dissolution rate in static melt increases with increasing temperature and decreasing cryolite ratio of NaF/AlF_3. When electrolysis test was conducted in molten salts consisting of NaF-AlF_3-NaCl-CaF_2-Al_2O_3 under different conditions, abundant gas bubble evolved around the used anode and the cell voltage fluctuated from 3.6 V to 4.2 V. The polarization corrosion rate decreases with increasing concentration of Al_2O_3 in melts and decreasing temperature. The purity of aluminum product is 97%98%.
作者 石忠宁 徐君莉 邱竹贤 舒芳霞
机构地区 东北大学材料与冶金学院
出处 《中国有色金属学报》 EI CAS CSCD 北大核心 2004年第4期591-595,共5页 The Chinese Journal of Nonferrous Metals
基金 国家重点基础研究与发展规划资助项目(G1999064903) 国家863计划资助项目(2001AA33501)
关键词 Ni-Fe-Cu合金 惰性金属阳极 耐蚀性能 熔盐腐蚀 抗氧化性能 炼铝 电解 inert metal anodes Ni-Fe-Cu alloy low temperature aluminum electrolysis oxidation molten-cryolite corrosion
分类号 TF821 [冶金工程—有色金属冶金]
  • 相关文献

参考文献15

  • 1Hryn J N, Pellin M J. A dynamic inert metals anode[A]. Eckert C E. Light Metals[C]. Warrendale: TMS, 1999. 377-381.
  • 2Hryn N, Sadoway D R. Cell testing of metal anode for aluminum electrolysis[A]. Light Metals[C]. Warrendale: TMS, 1993. 475-483.
  • 3Sekhar J A, Liu J. Non-consumable anode materials[A]. Light Metals[C]. Warrendale: TMS, 1998. 597-603.
  • 4Sekhar J A, Duruz J, Liu J. Stable Anodes for Aluminum Production Cells[P]. US5510008, 1996.
  • 5Beck T R. A non-consumable metal anode for production of aluminum with low temperature fluoride melts[A]. Light Metals[C]. Warrendale: TMS, 1995. 355-360.
  • 6Djokie S S, Conwqy B E. Comparison of the behaviour of glassy carbon and some metals for use as nonconsumable anodes in alumina crylite melts[J]. J Appl Electrochem 1955, 25(2): 106-113.
  • 7Olsen E, Thonstad J. The behaviour of nickel ferrite cermet materials as inert anodes[A]. Light Metals[C]. Warrendale: TMS, 1996. 249-257.
  • 8Lorentsen O A. Behaviour of nickel, iron and copper by application of inert anodes in aluminum production[D]. Trondheim: NTNU, 2000.
  • 9Chin P, Sides P J, Keller R. The transfer of nickel iron and copper from Hall cell melts into molten aluminum[J]. Can Met Quart, 1996, 35(1): 61-68.
  • 10Haugsud R. On the influence of non-protective CuO on high-temperature oxidation of Cu-rich Cu-Ni based alloys[J]. Oxidation of Metals, 1999, 53(5/6): 427-445.

二级参考文献12

  • 1Hall C M. Process of reduction aluminum from its fluoride salts by electrolysis[P]. U S Patent No.400,664, 1889-04-02.
  • 2Djokie S S, Conwqy B E. Comparison of the behaviour of glassy carbon and some metals for use as nonconsumable anodes in alumina crylite melts[J]. J Appl Electrochem, 1955,25(2):106-113.
  • 3Beck T R. A non-consumable metal anode for production of aluminum with low temperature fluoride melts[J]. Light Metals, 1995.355-360.
  • 4Sekhar J A, Liu J, Duruz J J. Micropyretically synthesized porous non-consumable anodes in the Ni-Al-Cu-Fe-X system[J]. Light Metals, 1997.347-354.
  • 5Crottaz O, Duruz J J. Nickel-iron alloy-based anodes for aluminium electrowinning cells[P]. WO Patent 00/06,804, 1999-01-08.
  • 6Sadoway D R. A materials systems approach to selection and testing of non-consumable anode for the Hall cell[J]. Light Metals, 1990.403-407.
  • 7Haugsud R. On the influence of non-protective CuO on high-temperature oxidation of Cu-Rich Cu-Ni based alloys[J]. Oxidation of Metals, 1999,53(5/6):427-445.
  • 8Haugsud R. High-temperature oxidation of Ni-20wt.%Cu from 700 to 1000℃[J]. Oxidation of Metals, 2001,55(5/6):571-583.
  • 9Hryn J N, Pellin M J. A dynamic inert metals anode[J]. Light Metals, 1999.377-381.
  • 10Hryn J N, Sadoway D R. Cell testing of metal anode for aluminum electrolysis[J]. Light Metals, 1993.475-483.

共引文献14

同被引文献140

引证文献12

二级引证文献54

中国有色金属学报
2004年 第4期

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