Effects of residual stress caused by abrasion on the flexoelectric response of BaTiO3 ceramics

Q4 Engineering Journal of University of Science and Technology of China Pub Date : 2023-01-01 DOI:10.52396/justc-2023-0015

Xu Yang, Dongxia Tian, Xiaoyan Zhang, Ruzhong Zuo, Baojin Chu

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Abstract

The spontaneously polarized surface layer, which originates from stress relaxation, has been proposed for the unexpectedly large flexoelectric response measured in ferroelectric ceramics. However, the source of the stress that led to the polarized surface layer is still not completely known. In this work, the effect of surface stress on the microstructure, dielectric properties and flexoelectric response of BaTiO₃ ceramics abraded by abrasive papers of various grit sizes was systematically studied. Compared with the as-prepared sample, the flexoelectric coefficients of abraded BaTiO₃ ceramics decreased from ~600 μC/m to less than 200 μC/m. The flexoelectric coefficients of all the samples, however, recovered to ~500 μC/m following heat treatment at 200 °C and a subsequent slow cooling process. The results indicate that abrasion can introduce stress on the surface layers and affect the flexoelectric response of ferroelectric ceramics to some extent, but the stress is not the main reason for the formation of polarized surface layers.

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磨损产生的残余应力对BaTiO3陶瓷

自发极化表面层，它起源于应力松弛，已经提出了铁电陶瓷中测量到的意想不到的大挠曲电响应。然而，导致极化表面层的应力来源仍然不完全清楚。本文研究了表面应力对BaTiO3系统地研究了不同粒度的磨料纸对陶瓷的磨损。与制备样品相比，磨砂后的BaTiO3陶瓷从~600 μC/m降至小于200 μC/m。经过200℃热处理和缓慢冷却后，所有样品的挠曲电系数都恢复到~500 μC/m。结果表明，磨损会在铁电陶瓷的表层引入应力，并在一定程度上影响铁电陶瓷的挠曲电响应，但应力并不是导致表面极化层形成的主要原因。

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