Crystallization progress and soft magnetic properties of Finemet alloy with Ge addition

•The Fe71.5Si9.5Ge6B9Nb3Cu1 amorphous ribbons were produced by melt spinning technique in air.•The crystallization activation energies of amorphous ribbons were calculated.•MS of the as-quenched sample is higher than that of the annealed sample.

The influence of the partial substitution of Si by Ge (6 at.%) on the structure, crystallization kinetics and magnetic properties of Finemet-type alloys were studied by means of X-ray diffraction (XRD), transmission electron microscopy (TEM), differential scanning calorimeter (DSC) and room-temperature hysteresis loops measurements. Amorphous ribbons were heat treated at different temperatures for 1 h in a vacuum furnace to induce nanocrystallization. It was found that a homogeneous structure of α-Fe3Si structure nanocrystals with a grain size less than 15 nm embedded in an amorphous matrix was obtained within the temperature range of 510–590 °C. The crystallization activation energies calculated using Kissinger model were 331 and 356 kJ/mol for the first and the second crystallizations, respectively. The saturation magnetization of the as-quenched amorphous ribbon is 138 Am2/kg and decreases gradually with the increase of annealing temperatures from 125 Am2/kg for 510 °C to 115 Am2/kg for 590 °C.