Hysteresis loss reduction in self-bias FeSi/SrFe₁₂O₁₉ soft magnetic composites

Abstract: The magnetic field provided by magnetized SrFe12O19 particles in FeSi/SrFe12O19 composites is used to replace the applied transverse magnetic field, which successfully reduces the magnetic loss of the composites with minor reduction of permeability. This magnetic loss reduction mainly comes from the decrease in hysteresis loss, while the eddy current loss is basically unaffected. The hysteresis loss reduction in magnetized composites is believed to be due to the decrease in domain wall displacement caused by t… Show more

“…The tunable electromagnetic properties of Fe due to their structural and size dependent magnetic and dielectric properties, which can further tuned by external magnetic fields [115,116]. Meanwhile, self-biased soft magnetic ferrites have been recently explored to exhibit unique properties by exploiting the anisotropy of magnetic material [117][118][119]. Fe 3 O 4 nanoparticles polymer composites have exhibited unique attributes for biomedical device and electronic applications, which require tuned, light weight, robust, flexible and cost-effective devices such as antennas [120].…”

Magnetite Nanoparticles (Fe₃O₄) for Radio-Frequency and Microwave Applications

“…The tunable electromagnetic properties of Fe due to their structural and size dependent magnetic and dielectric properties, which can further tuned by external magnetic fields [115,116]. Meanwhile, self-biased soft magnetic ferrites have been recently explored to exhibit unique properties by exploiting the anisotropy of magnetic material [117][118][119]. Fe 3 O 4 nanoparticles polymer composites have exhibited unique attributes for biomedical device and electronic applications, which require tuned, light weight, robust, flexible and cost-effective devices such as antennas [120].…”

Magnetite Nanoparticles (Fe₃O₄) for Radio-Frequency and Microwave Applications

Soft magnetic properties of nano-SiO2 coated FeNi alloy powder at high frequencies

Evolution of magnetic loss with annealing temperature in FeSiAl/carbonyl iron soft magnetic composite