Scientific Reports (Jul 2021)

Influence of nano-VC on the structural and magnetic properties of MnAlC-alloy

  • Vitalii Shtender,
  • Henry Stopfel,
  • Daniel Hedlund,
  • Dennis Karlsson,
  • Rajasekhar Pothala,
  • Björn Skårman,
  • Fredrik Olsson,
  • Hilmar Vidarsson,
  • Gabriella Andersson,
  • Peter Svedlindh,
  • Martin Sahlberg

DOI
https://doi.org/10.1038/s41598-021-93395-2
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 11

Abstract

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Abstract Alloys of Mn55Al45C2 with additions of VC nano-particles have been synthesized and their properties evaluated. The Mn55Al45C2(VC) x (x = 0.25, 0.5 and 1) alloys have been prepared by induction melting resulting in a high content of the ferromagnetic τ-phase (> 94 wt.%). Powder X-ray diffraction indicates that nano-VC can be dissolved in the alloy matrix up to 1 at.%. On the other side, metallography investigations by scanning electron microscopy and scanning transmission electron microscope show inclusions of the nanosized additives in the microstructure. The effect of nano-VC on the grain and twin boundaries has been studied by electron backscattering diffraction. The magnetization has been measured by magnetometry up to 9 T while the domain structure has been studied using both magnetic force microscopy as well as Kerr-microscopy. For nano-VC contents above 0.25 at.%, a clear increase of the coercive force is observed, from 57 to 71 kA/m. The optimum appears to be for 0.5 at.% nano-VC which shows a 25% increase in coercive force without losing any saturation magnetization. This independent increase in coercivity is believed to originate from the nano-VC reducing the overall magnetic domain size. Overall, we observe that addition of nano-VC could be an interesting route to increase the coercive force of MnAl, without sacrificing saturation magnetization.