Abstract
The superplastic behavior in GeO 2 doped 2.5Y-TZP was examined, especially, in terms of flow stress and tensile ductility by using high temperature tensile tests, X-ray diffraction analysis and scanning electron spectroscopy. ZrO 2 -2.5 mol%Y 2 O 3 -1.0 mol%GeO 2 (TZP-1Ge) exhibits lower flow stress and larger tensile elongation than ZrO 2 -2.5 mol%Y 2 O 3 (2.5Y-TZP) in a temperature range of 1200 and 1550°C at an initial strain rate of 1.3 × 10 -4 s -1 . The decrease in flow stress mainly results from enhanced diffusivity with a reduction in superplastic activation energy due to GeO 2 addition. The improvement in tensile ductility in TZP-1Ge can also be explained by the enhanced diffusivity. Furthermore, the previous model proposed by Kondo et at, was applied to explain the tensile ductility in TZP-1Ge, however, it could not explain the tensile ductility in TZP-1Ge. It would indicate that the further consideration for the equation is required when applied to the superplastic behavior of TZP-1Ge.
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