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Volume 22 Issue 6
Jun.  2015
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Shao-qun Jiang, Gang Wang, Qing-wen Ren, Chuan-duo Yang, Ze-hua Wang, and Ze-hua Zhou, In situ synthesis of Fe-based alloy clad coatings containing TiB2-TiN-(h-BN), Int. J. Miner. Metall. Mater., 22(2015), No. 6, pp. 613-619. https://doi.org/10.1007/s12613-015-1114-y
Cite this article as:
Shao-qun Jiang, Gang Wang, Qing-wen Ren, Chuan-duo Yang, Ze-hua Wang, and Ze-hua Zhou, In situ synthesis of Fe-based alloy clad coatings containing TiB2-TiN-(h-BN), Int. J. Miner. Metall. Mater., 22(2015), No. 6, pp. 613-619. https://doi.org/10.1007/s12613-015-1114-y
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In situ synthesis of Fe-based alloy clad coatings containing TiB2-TiN-(h-BN)

  • 通讯作者:

    Shao-qun Jiang    E-mail: sqjhit@126.com

  • Fe-based alloy coatings containing TiB2-TiN-(h-BN) were synthesized in situ on Q235 steel substrates by a plasma cladding process using the powders of Fe901 alloy, Ti, and h-BN as raw materials. The effects of Ti/h-BN mass ratio on interfacial bonds between the coating and substrate along with the microstructures and microhardnesses of the coatings were investigated. The results show that the Ti/h-BN mass ratio is a vital factor in the formation of the coatings. Free h-BN can be introduced into the coatings by adding an excess amount of h-BN into the precursor. Decreases in the Ti/h-BN mass ratio improve the microstructural uniformity and compactness and enhance the interfacial bonds of the coatings. At a Ti/h-BN mass ratio of 10/20, the coating is free of cracks and micropores, and mainly consists of Fe-Cr, Fe3B, TiB2, TiN, Ti2N, TiB, FeN, FeB, Fe2B, and h-BN phases. Its average microhardness in the zone between 0.1-2.8 mm from the coating surface is about Hv0.2 551.5.
  • In situ synthesis of Fe-based alloy clad coatings containing TiB2-TiN-(h-BN)

    + Author Affiliations
    • Fe-based alloy coatings containing TiB2-TiN-(h-BN) were synthesized in situ on Q235 steel substrates by a plasma cladding process using the powders of Fe901 alloy, Ti, and h-BN as raw materials. The effects of Ti/h-BN mass ratio on interfacial bonds between the coating and substrate along with the microstructures and microhardnesses of the coatings were investigated. The results show that the Ti/h-BN mass ratio is a vital factor in the formation of the coatings. Free h-BN can be introduced into the coatings by adding an excess amount of h-BN into the precursor. Decreases in the Ti/h-BN mass ratio improve the microstructural uniformity and compactness and enhance the interfacial bonds of the coatings. At a Ti/h-BN mass ratio of 10/20, the coating is free of cracks and micropores, and mainly consists of Fe-Cr, Fe3B, TiB2, TiN, Ti2N, TiB, FeN, FeB, Fe2B, and h-BN phases. Its average microhardness in the zone between 0.1-2.8 mm from the coating surface is about Hv0.2 551.5.
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