二次酸化表面改性制备高体积电阻率FeSiCr合金磁粉芯

FeSiCr合金粉末具有强耐腐蚀性,通过弱酸磷化的方式无法有效改善FeSiCr合金磁粉芯的绝缘性.本研究以盐酸乙醇溶液作为二次酸化剂,对磷化(一次酸化)的FeSiCr合金粉末表面改性,制备高体积电阻率FeSiCr合金磁粉芯.通过扫描电镜、LCR电桥和超高阻微电流测试仪分析盐酸乙醇溶液浓度对FeSiCr合金粉体微观形貌,...

Enhancement of Volume Resistivity FeSiCr Alloy Magnetic Powder Core by Surface Modification Using Secondary Acidification Processing

FeSiCr alloy powder core with high volume resistivity was successfully prepared by a secondary acidification process with phosphoric acid aqueous solution and hydrochloric acid ethanol solution in this paper.SEM and LCR electrical bridge meter were used to test the morphology,structure and magnetic properties of the FeSiCr alloy powder core.As a result,the secondary acidification enabled to increase the volume resistivity of the magnetic powder core and to reduce the high-frequency loss factor.At the same time,the real part of the complex magnetic permeability of the magnetic powder core decreases as the concentration of ethanol hydrochloride increases.Optimized magnetic properties(volume resistivity of 7.85×10⁸Ω·m and loss factor of 0.053Ω/μH at 1 MHz)had been achieved for the FeSiCr powder core acidized with 5.0 wt.%ethanol hydrochloride.