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Nanoindentation-Induced Plasticity in Cubic Zirconia Up to 500ºC

37 Pages Posted: 12 Nov 2019 First Look: Accepted

See all articles by Hiroshi Masuda

Hiroshi Masuda

National Institute for Materials Science

Koji Morita

National Institute for Materials Science

Takahito Ohmura

National Institute for Materials Science - Innovative Structural Materials Association (ISMA)

Abstract

Orientation-dependent crystal plasticity in cubic zirconia ceramics (8 mol% yttria-stabilized zirconia) was investigated from 25ºC to 500ºC, which is below the macroscopic brittle-ductile transition temperature. Nanoindentation experiments and subsequent electron microscope analysis revealed that dislocation activities on {001} planes predominantly governed small-scale plasticity at the grain interior for each crystal orientation in this temperature range. The maximum shear stress at yielding, τmax, necessary for plastic yielding, was comparable to the theoretical shear strength, τth, estimated from the measured elastic modulus at low temperatures, while their ratio, τmax/τth, almost monotonically decreased at elevated temperatures. This suggests that plastic yielding was predominantly mediated by atomistic shear processes at low temperatures and increasingly affected by thermally assisted processes at elevated temperatures. The orientation-dependent behavior switched in the vicinity of ~ 25º from <001> impression axes. In the near-[001] axis, plastic yielding occurred more smoothly at lower stresses, which can be attributed for the surface nucleation and forest-cutting interaction of dislocations on multiple {001} slip planes along and across the impression axes. In near-[101] and [111] axes, on the other hand, yielding was more burst-like and typically accompanied by pop-in events at higher stresses, which could result from the homogeneous dislocation nucleation and free-gliding motion of dislocations on {001} planes with considerable Schmid factors for the impression axes.

Keywords: Ceramics, Micromechanical property, Crystal plasticity, Dislocation, Electron microscopy

Suggested Citation

Masuda, Hiroshi and Morita, Koji and Ohmura, Takahito, Nanoindentation-Induced Plasticity in Cubic Zirconia Up to 500ºC (November 11, 2019). Available at SSRN: https://ssrn.com/abstract=3485042

Hiroshi Masuda (Contact Author)

National Institute for Materials Science ( email )

Tsukuba, Ibaraki 305-0047
Japan

Koji Morita

National Institute for Materials Science

Tsukuba, Ibaraki 305-0047
Japan

Takahito Ohmura

National Institute for Materials Science - Innovative Structural Materials Association (ISMA)

Japan

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