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Abstract
Plastic deformation of α-Al2O3 single crystals of several orientations has been performed at intermediate temperatures (400–700°C) under 1.5 GPa hydrostatic confining pressure to activate basal slip and basal and rhombohedral deformation twinning. The Schmid law for basal slip is maintained between 600 and 1500°C. The stress for basal twinning has been determined; its temperature dependence is similar to that of the critical resolved shear stress for basal slip. This suggests that glide of dislocations through the Peierls potential controls both basal slip and basal twinning and further supports the double-cross-slip model for basal twinning in sapphire proposed by Pirouz et al. and He et al.
Acknowledgements
J. C. thanks S. H. Kirby and J. Pinkston from US Geological survey (Menlo Park, California), who provided the experimental facilities for mechanical testing. Part of the work was performed when he was visiting the Universidad de Sevilla (Spain) and Los Alamos National Laboratory (New Mexico); the support of these institutions is acknowledged.
Notes
‡Present address: Department of Chemical and Materials Engineering, University of Alberta, Edmonton, Alberta, Canada
