Crystallization kinetics and thermal stability of an amorphous Fe77C5B4Al2GaP9Si2 bulk metallic glass

The thermal stability, kinetics and glass forming ability of an Fe₇₇C₅B₄Al₂GaP₉Si₂ bulk amorphous alloy have been studied by differential scanning calorimetry. The activation energy, frequency factor and rate constant corresponding to the multiple crystallization steps were determined by the Kissinger method. X-ray diffraction and transmission electron microscopy studies revealed that the crystallization starts with the primary precipitation of α-Fe from the amorphous matrix. The kinetics of nucleation of the α-Fe nanoparticles was investigated by two different methods, i.e. isothermal annealing and continuous heating after partial annealing.