Abstract
Deformation behavior at high temperature has been investigated for fine-grained Al 2 O 3 -20%ZrO 2 (3 mol%Y 2 O 3 doped ZrO 2 ) ceramics prepared with no additives in order to characterize the superplastic deformation mechanisms. The ceramics can be deformed superplastically in compression tests in the temperature range from 1400 to 1600°C. Grain boundary sliding clearly is found to take place during the superplastic deformation. The strain rate dependence of the flow stress and the apparent activation energy are different between the lower and higher strain rate regions. The deformation mechanisms in the lower strain rate region are considered to be grain boundary sliding, intragranular strain and interface-controlled diffusion creep. The rate controlling mechanism in the lower strain rate region is the interface-controlled diffusion creep. The deformation mechanisms in the higher strain rate region are grain boundary sliding, intragranular strain and grain boundary diffusion creep. Among them, the grain boundary diffusion creep is the rate controlling mechanism and hardly contributes to the total strain.
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