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Open Access

Large strain in low-temperature sintered PNN-PZT-based multilayer textured ceramics

Mingze Suna,1Weiye Niea,1Zhengxiu MaaHongchao LiaJiajun ChenaLang Bianb( )Qiangwei Kouc( )Wenwu Caoa( )
Center of Acoustic Functional Materials and Applications, School of Advanced Manufacturing Engineering, Nanjing University, Suzhou, 215163, Jiangsu, China
School of Materials Science and Engineering, Xi'an University of Technology, Xi'an, 710048, China
School of Automation, Wuxi University, Wuxi, 214105, Jiangsu, China

1 M. Sun and W. Nie contributed equally to this work.

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Abstract

In this work, highly textured 0.33Pb(Ni1/3Nb2/3)O3-xPbZrO3-(0.67–x)PbTiO3 ceramics were fabricated via low-temperature sintering without the use of sintering aids. Though composition optimization, the textured x = 0.27 ceramics demonstrate outstanding comprehensive properties (d33 = 1050 pC/N, Tc = 207 ℃, d33* = 1097 pm/V, kp = 0.73, k33 = 0.83). To elucidate the origin of the enhanced electromechanical properties, the domain configuration and lattice distortion in the textured x = 0.27 ceramics were investigated using high-angle annular dark-field scanning transmission electron microscopy. The results reveal that the crystallographic anisotropy, refined stripe domains, and atomic-scale lattice distortion heterogeneity induced by texturing collectively facilitate polarization rotation and domain wall motion. This synergistic effect leads to a flattened free-energy landscape, which enhances piezoelectric and electromechanical coupling properties without lowering the Tc. Furthermore, multilayer textured ceramics were successfully fabricated, and their strain characteristics were studied. A large strain of 0.331% was achieved under an electric field of 50 kV/cm, demonstrating its excellent potential for multilayer piezoelectric actuator applications.

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Cite this article:
Sun M, Nie W, Ma Z, et al. Large strain in low-temperature sintered PNN-PZT-based multilayer textured ceramics. Journal of Materiomics, 2026, 12(4). https://doi.org/10.1016/j.jmat.2026.101245

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Received: 12 December 2025
Revised: 11 January 2026
Accepted: 13 January 2026
Published: 25 April 2026
© 2026

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).