低温烧结Pb0.95Ba0.01Sr0.04(Zr0.53Ti0.47)O3低损耗陶瓷的热稳定压电性能

IF 1.3 4区材料科学 Q3 MATERIALS SCIENCE, CERAMICS

Advances in Applied Ceramics Pub Date : 2021-04-28 DOI:10.1080/17436753.2021.1919363

Zongzheng Du, Yi-Xuan Liu, Wenqing Wei, Hong Liu, Shengqi Jiang, Jingzhong Fang

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引用次数: 1

摘要

本文采用常规方法，在~ 900℃的低温下制备了Pb0.95Ba0.01Sr0.04(Zr0.53Ti0.47)O3压电陶瓷(含0.25 wt% MnCO3, 1 wt% LiBiO2和0.06 wt% CuO) (PBSZT-LBCu-Mn陶瓷，简称Mn0.25)。系统地研究了其相结构和随温度变化的电学特性。产品组成具有以下特性:归一化应变(d 33*) ~ 362 pm/V，居里温度(T c) ~ 336°c，机械品质因子(Q m) ~ 568，损耗因子(tan δ) ~ 0.0058，相对介电常数(λ) ~ 872。残余极化(P r)、最大极化(P max)和矫顽力场(E c)随温度的升高而减小，而应变(S pol)随温度的升高而增大。在25°C和120°C时，d 33*值分别为362和411 pm/V，变化率<14%。Mn0.25陶瓷具有较低的λ和tan δ值，平均功耗小，有利于高频执行器的应用。

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Thermally stable piezoelectric performance in low-temperature sintered Pb0.95Ba0.01Sr0.04(Zr0.53Ti0.47)O3 ceramics with a low loss factor

ABSTRACT Herein, Pb0.95Ba0.01Sr0.04(Zr0.53Ti0.47)O3 piezoelectric ceramics comprising 0.25 wt% MnCO3, 1 wt% LiBiO2 and 0.06 wt% CuO (PBSZT-LBCu-Mn ceramics, abbreviated as Mn0.25) were prepared via a conventional method at a low firing temperature of ∼900 °C. The phase structure and temperature-dependent electrical properties were systematically investigated. The product composition possesses the following properties: normalised strain (d 33*) ∼362 pm/V, Curie temperature (T c) ∼336 °C, mechanical quality factor (Q m) ∼568, loss factor (tan δ) ∼0.0058 and relative dielectric constant (ϵ r) ∼872. The remnant polarisation (P r), maximum polarisation (P max) and coercive field (E c) slightly decreased as a function of increasing temperature, while the strain (S pol) was observed to increase. Additionally, d 33* values of 362 and 411 pm/V were achieved at 25 °C and 120 °C, respectively, with a change ratio <14%. The Mn0.25 ceramics exhibit low ϵ r and tan δ values, leading to small average power dissipation, which is beneficial for high-frequency actuator applications.

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来源期刊

Advances in Applied Ceramics 工程技术-材料科学：硅酸盐

CiteScore

4.40

自引率

4.50%

发文量

审稿时长

5.2 months

期刊介绍： Advances in Applied Ceramics: Structural, Functional and Bioceramics provides international coverage of high-quality research on functional ceramics, engineering ceramics and bioceramics.