Formation, Crystallized Structure and Magnetic Properties of Fe–Pt–B Amorphous Alloys

Abstract

An amorphous phase was formed for (Fe_0.75Pt_0.25)_100−xB_x (x=25 and 30) alloys by melt-spinning. Their crystallization temperature were 671 and 667 K, respectively. The amorphous alloys exhibited good soft magnetic properties. The crystallized structure consisted of γ₁-FePt (fct), Fe₂B and γ-FePt (fcc) phases, and their average grain sizes were about 15 nm after annealing at 785 K for 900 s. The remanence (B_r), reduced remanence (M_r⁄M_s), coercivity (iH_c) and maximum energy product (BH)_max were 0.96 T, 0.83, 340 kA/m and 102.2 kJ/m³, respectively, for the 25 at%B alloy, and 0.91 T, 0.82, 368 kA/m and 96.5 kJ/m³, respectively, for the 30 at%B alloy. The reversible demagnetization loop behavior was also confirmed. Consequently, the good hard magnetic properties are interpreted as resulting from exchange magnetic coupling among nanoscale hard γ₁-FePt and soft Fe₂B and γ-FePt magnetic phases.