Abstract: Differential scanning calorimeter(DSC) was used to investigate the specific heat difference, glass transition temperature, onset crystallization temperature, and their corresponding peak temperature, respectively, around glass transition region and crystallization enthalpy for Pd-40Cu-30Ni-10P-20 bulk amorphous alloys pre-annealed at 523K for different times (0-64 h). The apparent activation energies for crystallization were calculated by Kissinger equation. The micro-hardness of pre-annealed amorphous state was also measured. It is found that the glass transition behavior of Pd-40Cu-30Ni-10P-20 bulk amorphous alloy is influenced significantly due to atomic coorperation re-arrangement as a result of pre-annealing below glass transition temperature. The crystallization, however, seems to have no relation to pre-annealing time when pre-annealing temperature is 523K. In addition, the micro-hardness tends to level off after a steady rise with increasing of pre-annealing time. The effects of pre-annealing time on glass transition, crystallization and micro-hardness of Pd-40Cu-30Ni-10P-20 bulk amorphous alloy were discussed in terms of theory of structural relaxation.

Key words: bulk amorphous alloy; structural relaxation; glass transition; crystallization