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Volume 23 Issue 8
Aug.  2016
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Long Wan, Yong-xian Huang, Shi-xiong Lü, Ti-fang Huang, and Zong-liang Lü, Microstructure and properties of pure iron/copper composite cladding layers on carbon steel, Int. J. Miner. Metall. Mater., 23(2016), No. 8, pp. 920-927. https://doi.org/10.1007/s12613-016-1307-z
Cite this article as:
Long Wan, Yong-xian Huang, Shi-xiong Lü, Ti-fang Huang, and Zong-liang Lü, Microstructure and properties of pure iron/copper composite cladding layers on carbon steel, Int. J. Miner. Metall. Mater., 23(2016), No. 8, pp. 920-927. https://doi.org/10.1007/s12613-016-1307-z
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Microstructure and properties of pure iron/copper composite cladding layers on carbon steel

  • 通讯作者:

    Yong-xian Huang    E-mail: yxhuang@hit.edu.cn

  • In the present study, pure iron/copper composite metal cladding was deposited onto carbon steel by tungsten inert gas welding. The study focused on interfacial morphological, microstructural, and mechanical analyses of the composite cladding layers. Iron liquid–solid-phase zones were formed at copper/steel and iron interfaces because of the melting of the steel substrate and iron. Iron concentrated in the copper cladding layer was observed to exhibit belt, globule, and dendrite morphologies. The appearance of iron-rich globules indicated the occurrence of liquid phase separation (LPS) prior to solidification, and iron-rich dendrites crystallized without the occurrence of LPS. The maximum microhardness of the iron/steel interface was lower than that of the copper/steel interface because of the diffusion of elemental carbon. All samples fractured in the cladding layers. Because of a relatively lower strength of the copper layer, a short plateau region appeared when shear movement was from copper to iron.
  • Microstructure and properties of pure iron/copper composite cladding layers on carbon steel

    + Author Affiliations
    • In the present study, pure iron/copper composite metal cladding was deposited onto carbon steel by tungsten inert gas welding. The study focused on interfacial morphological, microstructural, and mechanical analyses of the composite cladding layers. Iron liquid–solid-phase zones were formed at copper/steel and iron interfaces because of the melting of the steel substrate and iron. Iron concentrated in the copper cladding layer was observed to exhibit belt, globule, and dendrite morphologies. The appearance of iron-rich globules indicated the occurrence of liquid phase separation (LPS) prior to solidification, and iron-rich dendrites crystallized without the occurrence of LPS. The maximum microhardness of the iron/steel interface was lower than that of the copper/steel interface because of the diffusion of elemental carbon. All samples fractured in the cladding layers. Because of a relatively lower strength of the copper layer, a short plateau region appeared when shear movement was from copper to iron.
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