Ordering process of Cu3Pt from short-range order state studied by in-situ TEM observation.
Micron 2000;
31:539-42. [PMID:
10831299 DOI:
10.1016/s0968-4328(99)00135-3]
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Abstract
The state of short-range order (SRO) and the ordering process in Cu3Pt have been studied by the in-situ transmission electron microscope observation method. In order to detect weak diffraction-patterns and weak image-contrasts, an imaging plate system and/or digital-process of video-recorded signals were applied. It is confirmed that above the critical temperature for ordering, Tc, the alloy shows diffuse scattering in its electron diffraction pattern. The appearance of the diffuse scattering indicates that the "disordered" Cu3Pt (designated as A1) has an SRO-state in thermoequilibrium. Dark field images taken by using the diffuse scattering shows a fine dot-contrast, which indicates the presence of "microdomains". The dot-contrast is flickering at higher temperatures, but the rate of flickering decreases with falling temperature and finally stops before reaching Tc. On further decreasing temperature, some of the microdomains grow up to large domains of the long period superstructure (L12-s) phase. This indicates that the transformation to L12-s via SRO proceeds without a process of nucleation even though the transformation is of a first-order.
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