Rösel U, Drummer D (2023)
Publication Type: Journal article
Publication year: 2023
Original Authors: Uta Rösel, Dietmar Drummer
Book Volume: 3
Pages Range: 226-244
Issue: 3
Multipolar bonded magnets based on thermosets offer the opportunity to expand the applications of bonded magnets with respect to an increasing chemical and thermal resistance compared to thermoplastics. To utilise this option, the correlation between the material system and the magnetic properties must be explored amongst other influencing factors. This paper investigates the magnetic properties and the orientation of thermoset- (epoxy resin and phenolic resin) based bonded ring magnets with a hard magnetic filler of strontium-ferrite-oxide. The influence of the matrix material and the filler grade on the magnetic properties is correlated with the material characterisation showing a high impact of the embedding of the fillers into the matrix on the orientation and with that the magnetic properties. Based on a network theory, it can be justified that the magnetic properties can be increased due to a phenolic resin and a high filler grade. Further, it was shown that the orientation along the sample depth is highly affected by the strength of the outer magnetic field and limited in terms of the high-tool temperature in a thermoset-based production. With that, the sample depth, which reveals a proper orientation, is restricted so far.
APA:
Rösel, U., & Drummer, D. (2023). Correlation between the Material System and the Magnetic Properties in Thermoset-Based Multipolar Ring Magnets. Magnetism, 3, 226-244. https://doi.org/10.3390/magnetism3030018
MLA:
Rösel, Uta, and Dietmar Drummer. "Correlation between the Material System and the Magnetic Properties in Thermoset-Based Multipolar Ring Magnets." Magnetism 3 (2023): 226-244.
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