摘要
Ti-Pd-Ni thin films were prepared by sputter deposition at room temperature. The as-deposited thin films were crystallized at 750°C followed by various cooling conditions, and the structural change emerging in the films was characterized by means of both X-ray diffraction (XRD) and differential scanning calorimetry (DSC). It was found that the phase transformation temperatures of Ti50.6Pd30Ni19.4 ingot we much higher than those of its thin film. The B19' and B19 phases coexisted, together with the Ti2Ni type and Ti2Pd type of precipitates at the room temperature. Both the B19-B2 one-stage and the B19'-B19-B2 two-stage phase transformations took place when the films experienced thermal change across the region of phase transformation temperatures.
Ti-Pd-Ni thin films were prepared by sputter deposition at room temperature. The as-deposited thin films were crystallized at 750°C followed by various cooling conditions, and the structural change emerging in the films was characterized by means of both X-ray diffraction (XRD) and differential scanning calorimetry (DSC). It was found that the phase transformation temperatures of Ti50.6Pd30Ni19.4 ingot we much higher than those of its thin film. The B19' and B19 phases coexisted, together with the Ti2Ni type and Ti2Pd type of precipitates at the room temperature. Both the B19-B2 one-stage and the B19'-B19-B2 two-stage phase transformations took place when the films experienced thermal change across the region of phase transformation temperatures.
基金
sponsored by the Science and Technology Commission of the Shanghai Municipal Government(No.00JC14055)
