Journal of Materials Research and Technology (May 2023)

Properties and microstructural evolution of a ternary Cu–Co–Fe immiscible alloy solidified under high magnetic fields

  • Chen Wei,
  • Jun Wang,
  • Bowen Dong,
  • Yujie Yan,
  • Lin Wang,
  • Yixuan He,
  • Eric Beaugnon,
  • Jinshan Li

Journal volume & issue
Vol. 24
pp. 3564 – 3574

Abstract

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In this study, ternary Cu52Co24Fe24 immiscible alloys are prepared with varying undercoolings and under a high magnetic field. The microstructure evolution and properties of the alloys are investigated. The temperature range of the immiscible gap is determined using CALPHAD. According to the excess Gibbs free energy of liquid, the addition of Fe promotes the demixing tendency of the Cu–Co–Fe ternary system during solidification. With the application of a magnetic field, the (Fe, Co)-rich phases transform from a globular shape to an elongated form along the direction of the magnetic field during solidification, which is due to the existence of the counteracting behavior of the interparticle magnetic dipole-dipole force at the critical droplet size. Under a high magnetic field, the obtained samples had a more dispersed minority phase, higher microhardness and better conductivity. However, the saturation magnetization of the samples with large undercooling decreases with increasing magnetic field due to the suppression of the phase separation behavior under a high magnetic field. This study proposes a novel technology for preparing immiscible alloys with excellent properties by applying a superimposed magnetic field during solidification.

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