Scientific Reports (Oct 2022)

In-situ alignment of 3D printed anisotropic hard magnets

  • M. Suppan,
  • C. Huber,
  • K. Mathauer,
  • C. Abert,
  • F. Brucker,
  • J. Gonzalez-Gutierrez,
  • S. Schuschnigg,
  • M. Groenefeld,
  • I. Teliban,
  • S. Kobe,
  • B. Saje,
  • D. Suess

DOI
https://doi.org/10.1038/s41598-022-20669-8
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 6

Abstract

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Abstract Within this work, we demonstrate in-situ alignment of the easy axis single-crystal magnetic particles inside a polymer matrix using fused filament fabrication. Two different magnetic materials are investigated: (i) Strontium hexaferrite inside a PA6 matrix, fill grade: 49 vol% and (ii) Samarium iron nitride inside a PA12 matrix, fill grade: 44 vol%. In the presence of the external alignment field, the strontium hexaferrite particles inside the PA6 matrix can be well aligned with a ratio of remnant magnetization to saturation magnetization in an easy axis of 0.7. No significant alignment for samarium iron nitride could be achieved. The results show the feasibility to fabricate magnets with arbitrary and locally defined easy axis using fused filament fabrication since the permanent magnets (or alternatively an electromagnet) can be mounted on a rotatable platform.