This research paper investigated the impact of normal annealing (NA) and magnetic field annealing (FA) on the soft magnetic properties and microstructure of FeSiBPC amorphous alloy iron cores. The annealing process involved various methods of magnetic field application: transverse magnetic field annealing (TFA), longitudinal magnetic field annealing (LFA), transverse magnetic field annealing followed by longitudinal magnetic field annealing (TLFA) and longitudinal magnetic field annealing followed by transverse magnetic field annealing (LTFA). The annealed samples were subjected to testing and analysis using techniques such as differential scanning calorimetry (DSC), transmission electron microscopy (TEM), X-ray diffraction (XRD), magnetic performance testing equipment and magneto-optical Kerr microscopy. The obtained results were then compared with those of commercially produced FeSiB. FeSiBPC demonstrated the lowest loss of P = 8.1 W/kg when annealed in a transverse magnetic field at 370 °C, which was 17% lower than that of FeSiB. When influenced by the longitudinal magnetic field, the magnetization curve tended to become more rectangular, and the coercivity (B) of FeSiBPC reached 1.6 T, which was 0.05 T higher than that of FeSiB. During the 370 °C annealing process of the FeSiBPC amorphous iron core, the internal stress in the strip gradually dissipated, and impurity domains such as fingerprint domains disappeared and aligned with the length direction of the strip. Consequently, wide strip domains with low resistance and easy magnetization were formed, thereby reducing the overall loss of the amorphous iron core.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10456755PMC
http://dx.doi.org/10.3390/ma16165527DOI Listing

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