Soft magnetic properties of nanocrystalline bcc Fe-Zr-B and Fe-M-B-Cu (M=transition metal) alloys with high saturation magnetization (invited)

Abstract

A mostly single bcc phase with nanoscale grain sizes of 10 to 20 nm was found to form by annealing amorphous Fe‐Zr‐B, Fe‐Hf‐B, and Fe‐M‐B‐Cu(M=Ti, Zr, Hf, Nb, and Ta) alloys for 3.6 ks in the range of 723 to 923 K. The high permeability (μ_e) above 10 000 at 1 kHz combined with high saturation magnetization (B_s) above 1.5 T was obtained for the bcc alloys. The highest μ_e and B_s values reach 14 000 and 1.7 T for Fe₉₁Zr₇B₂, 20 000 and 1.55 T for Fe₈₇Zr₇B₅Cu₁, and 48 000 and 1.52 T for Fe₈₆Zr₇B₆Cu₁. Magnetostriction (λ_s) decreases significantly by the phase transition from amorphous to bcc phase and is measured to be 1 × 10⁻⁶ for the bcc Fe₈₆Zr₇B₆Cu₁ alloy. The small λ_s as well as the small grain size is concluded to be the reason for the good soft magnetic properties. The lattice parameter of this bcc phase is 0.2870 nm being larger than that of pure α‐Fe. The small λ_s seems to be achieved by the dissolution of solute elements above an equilibrium solubility limit. The bcc Fe₈₆Zr₇B₆Cu₁ alloy also shows the low core loss of 0.066 W/kg at 1 T and 50 Hz, which is considerably smaller than that of amorphous Fe₇₈Si₉B₁₃ and bcc Fe‐3.5mass%Si alloys in practical uses as core materials in transformer.