Abstract:Differential scanning calorimeter (DSC) was used to investigate the Mg₆₀Cu₃₀Y₁₀ bulk amorphous alloy and CuYSi-Mg₆₀Cu₃₀Y₁₀ reinforced composite at different heating rates. The influence of CuYSi particles on crystallization behavior of the bulk amorphous alloy was studied by Kissinger’s and Deloy’s method. The results show that the kinetics effect on crystallization behavior is preserved for both Mg₆₀Cu₃₀Y₁₀ bulk amorphous alloy and its CuYSi reinforced composite. However, CuYSi particle distribution in the glass matrix reduces the influence of the heating rate on the glass transition of the composite, while increases the energy barrier for the glass transition and the crystallization, thus improves the thermal stability. The local area activation energy decreases with increasing crystallization volume of the amorphous alloy matrix composite.

Key words: bulk amorphous alloy matrix composite; crystallization kinetics; activation energy