Structural relaxation in Pd–Cu–Ni–P metallic glasses

Abstract

Abstract The structural relaxation process in the Pd 40 Cu 30 Ni 10 P 20 and the Pd 43 Cu 27 Ni 10 P 20 metallic glasses was examined by measuring the electrical resistivity at room temperature, ρ (3 0 0), and the endothermic peak behavior peculiar to glass transition after relaxation on the differential scanning calorimetry (DSC) curve. It was concluded that the annihilation and the formation of the free volume increased and decreased the ρ (3 0 0), respectively. The maximum change in ρ (3 0 0) due to the annihilation of the free volume was about 2% of that in the as-quenched sample. The relaxation process at 540 K just below glass transition was investigated. The quenched-in free volume for a Pd 43 Cu 27 Ni 10 P 20 glass did not reach the equilibrium value within annealing period of about 3.0×10 6 s. The local structure of the Pd 40 Cu 30 Ni 9 57 Fe 1 P 20 glass was examined by Mossbauer spectroscopy for the relaxation process at 540 K. The average quadrupole splitting, Q ¯ , and the isomer shift, δ ¯ , decreased with time up to 1.44×10 6 s and thereafter these increased. The origin of this increase was not explained if we took account for the contribution of the chemical short range ordering process.