Reducing the annealing heating rate sensitivity of Fe83.5Si3B10P2Cu1.5 soft magnetic nanocrystalline alloy by adjusting the B/P ratio

The effects of B/P ratio on microstructure, crystallization behavior and soft magnetic characteristics of Fe83.5Si3B10-xP2+xCu1.5 (x = 0, 3, 6 & 8 at.%) amorphous alloys were studied. The results of Mo<spacing diaeresis>ssbauer spectra indicate that B/P ratio significantly impact the microstructure of amorphous alloy. A decrease in the B/P ratio facilitates the formation of an amorphous precursor containing more alpha-Fe-like structure and Cu(P)-clusters. As the B/P ratio reduces, the saturation magnetic induction (Bs) and the coercivity (Hc) of the as-quenched Fe83.5Si3B10-xP2+xCu1.5 amorphous alloy decreases. After annealing with a low heating rate (1 degrees C/s), the Fe83.5Si3B4P8Cu1.5 alloy shows a low Hc(<= 10 A/m) in a broad temperature range. With the decrease of the B/P ratio, the sensitivity of the soft magnetic properties of the nanocrystalline alloys to the annealing heating rate decreases.