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In-situ alignment of anisotropic hard magnets of 3D printed magnets

Within this work, we demonstrate in-situ easy-axis alignment of 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 remanent magnetization to saturation magnetization 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 used for the alignment (or alternatively an electromagnet) can be mounted on a rotatable platform.

preprint2022arXivOpen access
Maximilian SuppanChristian HuberKlaus MathauerClaas AbertFlorian BruckerJoamin Gonzalez-GutierrezStephan SchuschniggMartin GroenefeldIulian TelibanSpomenka KobeBoris SajeDieter Suess
physics.app-phcond-mat.mtrl-sci
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Open access12 authors2 topics
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Maximilian SuppanChristian HuberKlaus MathauerClaas AbertFlorian BruckerJoamin Gonzalez-GutierrezStephan SchuschniggMartin GroenefeldIulian TelibanSpomenka KobeBoris SajeDieter Suess

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