Abstract
A stress-oriented formation of plate-shaped Guinier–Preston (GP) zones in single crystals of a Cu–0.9 wt.% Be alloy aged at 200°C has been found. A compressive stress applied in the [001] direction assists the formation of the GP zones perpendicular to the [001] axis, while a tensile stress results in the preferential formation of the GP zones parallel to the stress axis. The applied stress strongly affects the nucleation of the GP zones. Free ageing at 275°C after compressive-stress ageing at 200°C produces plate-shaped γ′′ precipitates perpendicular to the stress axis, indicating a continuous change in the structure of the GP zones into that of the γ′′ phase. From length-change measurements during ageing, the misfit strains of the GP zone or γ′′ precipitate in directions parallel and perpendicular to the plate plane are estimated, respectively, as −0.01 and −0.10 for the GP zone and −0.01 and −0.11 for the γ′′ precipitate.
Acknowledgement
We thank Mr K. Higashimine of the Centre for Nano Materials and Technology, Japan Advanced Institute Science and Technology, for the TEM observation.