阅读说明：本技术 一种铁镍基非晶软磁合金磁粉芯材料及其制备方法 (Iron-nickel-based amorphous soft magnetic alloy magnetic powder core material and preparation method thereof ) 是由 邓毕力 徐敏义 罗顶飞 潘振海 王玉川 于 2020-12-21 设计创作，主要内容包括：本发明提供一种铁镍基非晶软磁合金磁粉芯材料及其制备方法,磁芯材料具有以下分子式：Fe-aNi-bM-cB-dC-eCu-f,a+b+c+d+f＝100,M元素为Nb、Co、Cr、La中的一种或几种,磁芯材料外还具有纳米BaTiO-3层,所述纳米BaTiO-3层外采用化学气象沉积一层聚对二甲苯薄膜。所述纳米BaTiO-3层中的纳米BaTiO-3的粒径为15nm～30nm,所述纳米BaTiO-3层的厚度为5mm～10mm。本发明提供的磁粉芯材料具有0.8T～1.2T饱和磁感强度以及较高的初始磁导率和优异的最大磁导率、机械强度和韧性；在中低频率下具有较低的磁损率；在空气中进行热处理时不会发生氧化,且绝缘性良好。(The invention provides an iron-nickel based amorphous soft magnetic alloy magnetic powder core material and a preparation method thereof, wherein the magnetic core material has the following molecular formula: fe a Ni b M c B d C e Cu f A + b + c + d + f is 100, M element is one or several of Nb, Co, Cr and La, and the magnetic core material is also provided with nano BaTiO 3 Layer of said nano BaTiO 3 And a layer of parylene film is deposited outside the layer by adopting chemical vapor deposition. The nano BaTiO 3 Nano-sized BaTiO in a layer 3 The particle diameter of the nano BaTiO is 15nm to 30nm 3 The thickness of the layer is 5mm to 10 mm. The magnetic powder core material provided by the invention has the saturated magnetic induction strength of 0.8T-1.2T, higher initial permeability and excellent maximum permeability, mechanical strength and toughness; the magnetic loss rate is lower at medium and low frequency; the insulation material is free from oxidation when heat-treated in air and has good insulation properties.)