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Ultrahigh voltage-gradient ZnO-based varistor ceramics via hybrid cold sintering process/spark plasma sintering and post-annealing process

Shenglin Kang, Xuetong Zhao, Qi Wang, Jie Liang, Jing Guo, Xilin Wang, Guilai Yin, Lijun Yang, Ruijin Liao

2025Journal of Advanced Ceramics11 citationsDOIOpen Access PDF

Abstract

A high voltage gradient (<i>V</i><sub>g</sub>) of ZnO-based varistor ceramics is critical for realizing miniaturized and lightweight overvoltage protection devices. However, improving <i>V</i><sub>g</sub> of ZnO-based varistor ceramics through conventional high-temperature sintering process remains a significant challenge. Here, we present a strategy to fabricate ultrahigh voltage-gradient ZnO-based varistor ceramics by combining cold sintering process/spark plasma sintering (CSP–SPS) with post-annealing process. Employing CSP–SPS, the ZnO-based varistor ceramics were initially densified at 300 °C and subsequently annealed at a low temperature of 700–900 °C. CSP<strong>–</strong>SPS technique combined with a low annealing temperature enables the production of ZnO-based varistor ceramics with fine and homogeneous microstructures, while suppressing the volatilization of Bi-rich phases at grain boundaries. This approach achieves the ultrahigh <i>V</i><sub>g</sub> of ~1832.71 V/mm, high nonlinear coefficient (<i>α</i>) of ~106.69, and low leakage current density (<i>J</i><sub>L</sub>) of less than 0.2 μA/cm<sup>2</sup>. This work shows that the integration of CSP–SPS and post-annealing provides a promising way to design ZnO-based varistor ceramics with ultrahigh <i>V</i><sub>g</sub>.

Topics & Concepts

Materials scienceSpark plasma sinteringSinteringAnnealing (glass)VaristorCeramicMetallurgyPlasmaMicrostructureVoltageElectrical engineeringPhysicsEngineeringQuantum mechanicsZnO doping and propertiesPigment Synthesis and PropertiesAdvanced ceramic materials synthesis
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