1. フラッシュ処理を施したセラミックスにおける特異な力学応答.
- Author
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増田 紘士
- Subjects
ANELASTICITY ,SPEED of sound ,POINT defects ,VISCOELASTICITY ,VELOCITY measurements ,STRAIN rate ,INDENTATION (Materials science) - Abstract
Flash events, where high-temperature dynamics such as sintering, superplasticity, and crack healing of ceramics are significantly promoted by electric fields and/or currents, have been attracting scientific and technological interests. In this review, anomalous mechanical responses in 8 mol% yttria-stabilized zirconia flash-processed using an AC electric field are described. The dynamic and quasi-static mechanical properties before and after flash processing were evaluated via sound velocity and nanoindentation measurements to characterize the mechanical responses attributed to flash-induced defects. Rate-dependent elastic softening (i.e., the slower the loading rate, the lower the indentation modulus) was observed in the quasi-static range after flash processing, while a negligible change was confirmed in the dynamic elastic behaviors even after flash. Such anomalous mechanical responses in the flash-processed sample are characterized as anelasticity (i.e., viscoelasticity or pseudoelasticity in other terms), which can be attributed to stress-induced and thermally activated recoverable motions of point defect dipoles induced via flash processing. This anelastic behavior may be of importance for understanding the nature of flash induced defects which athermally contribute to the enhanced diffusion during flash events. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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