Fluxing purification and its effect on magnetic properties of high-B_s FeBPSiC amorphous alloy

A high-B_s amorphous alloy with the base composition Fe₈₃B₁₁P₃Si₂C₁ was used to study the effects of fluxing purification on amorphous forming ability and magnetic properties of the alloy prepared with raw materials in industrialization. By using fluxing purification, the surface crystallization was suppressed and fully amorphous Fe₈₃B₁₁P₃Si₂C₁ ribbons with a maximum thickness of 48 μm were successfully achieved by using an industrial process and materials. The amorphous ribbons made with industrial-purified alloys exhibit excellent magnetic properties, containing high-B_s of 1.65 T, low H_c of 2.0 A/m, and high μ_e of 9.7 × 10³ at 1 kHz. Impurities in the melting alloys exist in three forms and have different effluences on magnetic properties. The surface crystallization was triggered by the impurities which exist as high melting point inclusions serving as nuclei. Thus, fluxing purification is a feasible way for industrialization of high-B_s FeBPSiC amorphous alloys.