Yan-bin Jiang, Jun Xu, Xin-hua Liu, and Jian-xin Xie, Effects of Fe content on the microstructure and properties of CuNi10FeMn1 alloy tubes fabricated by HCCM horizontal continuous casting, Int. J. Miner. Metall. Mater., 23(2016), No. 4, pp. 449-457. https://doi.org/10.1007/s12613-016-1255-7
Cite this article as:
Yan-bin Jiang, Jun Xu, Xin-hua Liu, and Jian-xin Xie, Effects of Fe content on the microstructure and properties of CuNi10FeMn1 alloy tubes fabricated by HCCM horizontal continuous casting, Int. J. Miner. Metall. Mater., 23(2016), No. 4, pp. 449-457. https://doi.org/10.1007/s12613-016-1255-7

Effects of Fe content on the microstructure and properties of CuNi10FeMn1 alloy tubes fabricated by HCCM horizontal continuous casting

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  • Corresponding author:

    Jian-xin Xie    E-mail: jxxie@mater.ustb.edu.cn

  • Received: 11 October 2015Revised: 18 December 2015Accepted: 22 December 2015
  • Heating-cooling combined mold (HCCM) horizontal continuous casting technology developed by our research group was used to produce high axial columnar-grained CuNi10FeMn1 alloy tubes with different Fe contents. The effects of Fe content (1.08wt%–2.01wt%) on the microstructure, segregation, and flushing corrosion resistance in simulated flowing seawater as well as the mechanical properties of the alloy tubes were investigated. The results show that when the Fe content is increased from 1.08wt% to 2.01wt%, the segregation degree of Ni and Fe elements increases, and the segregation coefficient of Ni and Fe elements falls from 0.92 to 0.70 and from 0.92 to 0.63, respectively. With increasing Fe content, the corrosion rate of the alloy decreases initially and then increases. When the Fe content is 1.83wt%, the corrosion rate approaches the minimum and dense, less-defect corrosion films, which contain rich Ni and Fe elements, form on the surface of the alloy; these films effectively protect the α-matrix and reduce the corrosion rate. When the Fe content is increased from 1.08wt% to 2.01wt%, the tensile strength of the alloy tube increases from 204 MPa to 236 MPa, while the elongation to failure changes slightly about 46%, indicating the excellent workability of the CuNi10FeMn1 alloy tubes.
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