Analysis of the magnetic losses in iron-based soft magnetic composites with MgO insulation produced by sol–gel method

Abstract

This work investigated the magnetic losses of heat treated iron-based soft magnetic composites with a thin MgO insulating layer produced by sol–gel method. The samples were characterized by energy dispersive X-ray spectroscopy, X-ray analysis and Fourier transform infrared spectroscopy. The results show that the surface of the powders contains a thin layer of MgO insulation. The loss results indicate that the hysteresis part for both the core loss and total loss factor was approximately the same for the MgO-insulated compacts and conventional SOMALOY TM samples with phosphate insulation after annealing at 600 °C. But the MgO-insulated compacts exhibited significantly lower eddy current contribution of both core loss and total loss factor with respect to SOMALOY TM samples after annealing. Also the contribution of eddy current in the iron particles for MgO insulated compacts ( k p =0.91) was noticeably higher than this contribution for SOMALOY TM samples ( k p =0.18) after annealing due to the higher electrical resistivity of the MgO-insulated compacts.