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Research Article | Open Access

Simultaneous achievement of large strain, low hysteresis, and high-temperature stability in textured BT-based piezoelectric ceramics

Xiyue Zhang1Zhe Wang1Peng Li1Yingchun Liu2Juan Du1Jigong Hao1( )Wei Li1( )Jiwei Zhai3( )
School of Materials Science and Engineering, Laboratory of Sensitive Materials and Devices Shandong Department of Education, Liaocheng University, Liaocheng 252059, China
Functional Materials and Acoustooptic Instruments Institute, Harbin Institute of Technology, Harbin 150080, China
School of Materials Science and Engineering, Tongji University, Shanghai 201804, China
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Abstract

BaTiO3 (BT)-based piezoceramics with large temperature-stable strains and low hysteresis are urgently needed for high-precision actuators because of increasing environmental problems. Here, tetragonal [001]c-textured (Ba0.98Ca0.02)(Ti0.96Sn0.04)O3 (BCTS) ceramics with a texture degree (F001) of ~98% were obtained via the templated grain growth (TGG) method. A large maximum unipolar strain (Smax) of ~0.24% with a low strain hysteresis (Hs) of ~3.8% and an optimized piezoelectric strain coefficient (d33*) of ~1124 pm·V−1 are simultaneously achieved in the textured BCTS ceramics. Moreover, the variation in the strain response is less than 20% from room temperature (RT) to 100 °C for the textured ceramics. The underlying mechanism for the optimized strain performance could be attributed to the synergetic effect of the polarization extension and a fine domain structure. This work provides new insight for achieving a balance of multiple strain properties (large strain, low hysteresis, and high-temperature stability) in BT-based ceramics, showing the widespread application prospects of lead-free ceramics in high-precision actuators.

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Journal of Advanced Ceramics
Article number: 9221025

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Cite this article:
Zhang X, Wang Z, Li P, et al. Simultaneous achievement of large strain, low hysteresis, and high-temperature stability in textured BT-based piezoelectric ceramics. Journal of Advanced Ceramics, 2025, 14(2): 9221025. https://doi.org/10.26599/JAC.2024.9221025

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Received: 11 September 2024
Revised: 27 November 2024
Accepted: 28 December 2024
Published: 26 February 2025
© The Author(s) 2025.

This is an open access article under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0, http://creativecommons.org/licenses/by/4.0/).