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Volume 21 Issue 12
Dec.  2014
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Qiong Long, Yun-bo Zhong, Huai Wang, Tian-xiang Zheng, Jun-feng Zhou, and Zhong-ming Ren, Effects of magnetic fields on Fe-Si composite electrodeposition, Int. J. Miner. Metall. Mater., 21(2014), No. 12, pp. 1175-1186. https://doi.org/10.1007/s12613-014-1025-3
Cite this article as:
Qiong Long, Yun-bo Zhong, Huai Wang, Tian-xiang Zheng, Jun-feng Zhou, and Zhong-ming Ren, Effects of magnetic fields on Fe-Si composite electrodeposition, Int. J. Miner. Metall. Mater., 21(2014), No. 12, pp. 1175-1186. https://doi.org/10.1007/s12613-014-1025-3
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Effects of magnetic fields on Fe-Si composite electrodeposition

  • 通讯作者:

    Yun-bo Zhong    E-mail: yunboz@staff.shu.edu.cn

  • Coatings containing Fe-Si particles were electrodeposited on 3.0wt% Si steel sheets under magnetic fields. The effects of magnetic flux density (MFD), electrode arrangement and current density on the surface morphology, the silicon content in the coatings and the cathode current efficiency were investigated. When a magnetic field was applied parallel to the current and when the MFD was less than 0.5 T, numerous needle-like structures appeared on the coating surface. With increasing MFD, the needle-like structures weakened and were transformed into dome-shaped structures. Meanwhile, compared to results obtained in the absence of a magnetic field, the silicon content in the coatings significantly increased as the MFD was increased for all of the samples obtained using a vertical electrode system. However, in the case of an aclinic electrode system, the silicon content decreased. Furthermore, the cathode current efficiency was considerably diminished when a magnetic field was applied. A possible mechanism for these phenomena was discussed.
  • Effects of magnetic fields on Fe-Si composite electrodeposition

    + Author Affiliations
    • Coatings containing Fe-Si particles were electrodeposited on 3.0wt% Si steel sheets under magnetic fields. The effects of magnetic flux density (MFD), electrode arrangement and current density on the surface morphology, the silicon content in the coatings and the cathode current efficiency were investigated. When a magnetic field was applied parallel to the current and when the MFD was less than 0.5 T, numerous needle-like structures appeared on the coating surface. With increasing MFD, the needle-like structures weakened and were transformed into dome-shaped structures. Meanwhile, compared to results obtained in the absence of a magnetic field, the silicon content in the coatings significantly increased as the MFD was increased for all of the samples obtained using a vertical electrode system. However, in the case of an aclinic electrode system, the silicon content decreased. Furthermore, the cathode current efficiency was considerably diminished when a magnetic field was applied. A possible mechanism for these phenomena was discussed.
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