Indentation contact deformation of superplastic and non-superplastic 3Y-TZP at elevated temperatures
Authors: Muto, H.1; Yamada, R.1; Matsuda, A.1; Sakai, M.1
Source: Philosophical Magazine, Volume 86, Numbers 33-35, -35/21 November-11 December 2006 , pp. 5643-5652(10)
Publisher: Taylor and Francis Ltd
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Abstract:
The contact deformation mechanisms of superplastic (SP) and non-superplastic (NSP) 3Y-TZP (3mol.% yttria-partially stabilized tetragonal zirconia polycrystals) are examined in indentation creep tests at elevated temperatures. A large discrepancy between SP-TZP and NSP-TZP in their indentation contact behaviours is observed. The indentation creep curves of SP-TZP exhibit a hardening behaviour, i.e. the creeping rate decreases as the penetration depth and/or the creep time increases. In contrast, the indentation creep curves of NSP-TZP shows a steady-state viscous flow in its long-time creeping. The surface profiles of indentation impression after creep deformation suggest that the deformation mechanisms of indentation creep of SP-TZP and NSP-TZP are quite different. A well-defined piling-up impression profile is observed in SP-TZP, while it is sinking-in for NSP-TZP. This fact implies that the rearrangements of individual grains through grain-boundary sliding take place beneath the pyramidal indenter in SP-TZP, whereas the viscoelastic deformations and flows through bulk/grain-boundary diffusion processes dominate the indentation creep in SP-TZP.Document Type: Research article
DOI: 10.1080/14786430600696355
Affiliations: 1: Department of Materials Science, Toyohashi University of Technology, Tempaku-cho, Toyohashi 441-8580, Japan
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