Giant strain and compling effects of relaxor/ferroelectric lead-free composite piezoceramics

机译：弛豫/铁电无铅复合压电陶瓷的巨大应变和压缩效应

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A lead-free relaxor (RE)/ferroelectric (FE) 0-3 composite was developed with a giant strain that resulted from the electric-field-induced ergodic relaxor-to-ferroelectric phase transition at a relatively low operational field of 4 kV mm-1. The composite comprised of 70 vol.% 0.91Bi1/2Na1/2TiO3-0.06BaTiO3-0.03AgNbO3 RE matrix and 30 vol.% 0.93Bi1/2Na1/2TiO3- 0.07BaTiO3 FE seed shows a normalized strain, d_33^*, of 824 pm V-1 at room temperature. In order to explore the underlying mechanism of this composite effect, two multilayer ceramics with alternating RE and FE layers are also prepared, one with the layers parallel (PCM, polarization coupled multilayer) and the other with the layers perpendicular (SCM, strain coupled multilayer) to the electroded surfaces. It is found that in addition to polarization coupling, the strain coupling effect also plays a critical role in the reduction of the RE to FE phase transition field.

机译：开发了无铅松弛剂（RE）/铁电体（FE）0-3复合材料，该复合材料具有巨大的应变，这是由电场引起的遍历松弛体到铁电体在4 kV mm的相对较低的电场下转变而产生的-1。由70％（体积）的0.91Bi1 / 2Na1 / 2TiO3-0.06BaTiO3-0.03AgNbO3 RE基质和30％（体积）的0.93Bi1 / 2Na1 / 2TiO3-0.07BaTiO3的FE种子组成的复合材料的归一化应变d_33 ^ *为824 pm V-1在室温下。为了探索这种复合效应的潜在机理，还制备了两种具有交替的RE和FE层的多层陶瓷，一种具有平行的层（PCM，偏振耦合多层），另一种具有垂直的层（SCM，应变耦合多层））到电极表面。已经发现，除了极化耦合之外，应变耦合效应在减小RE到FE相变场中也起着关键作用。

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来源
《2015 Joint IEEE International Symposium on the Applications of Ferroelectric, International Symposium on Integrated Functionalities and Piezoelectric Force Microscopy Workshop》|2015年|71-74|共4页
会议地点 Singapore(SG)
作者
Haibo Zhang; Wook Jo; Qi Zhang; Groh Claudia; Webber Kyle G.; Rödel Jürgen;
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作者单位

Coll. of Mater. Sci. Eng., Huazhong Univ. of Sci. Technol., Wuhan, China;

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原文格式 PDF
正文语种 eng
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关键词
electric-field-induced phase transition; normalized strain; polarization coupling; relaxor-ferroelectric ceramic composites; strain coupling;

机译：电场引起的相变;归一化应变;极化耦合;弛豫铁电陶瓷复合材料;应变耦合;

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专利

1. Giant strain in lead-free relaxor/ferroelectric piezocomposite ceramics [J] . Thi Hinh Dinh, Kang Jin-Kyu, Hoang Thien Khoi Nguyen, Journal of the Korean Physical Society . 2016,第12期

机译：无铅弛豫/铁电压电复合陶瓷的巨大应变
2. Relaxor/Ferroelectric Composites: A Solution in the Quest for Practically Viable Lead-Free Incipient Piezoceramics [J] . Claudia Groh, Daniel J. Franzbach, Wook Jo, Advanced Functional Materials . 2014,第3期

机译：弛豫/铁电复合材料：寻求切实可行的无铅初始压电陶瓷的解决方案
3. Spontaneous relaxor to ferroelectric transition in lead-free relaxor piezoceramics and the role of point defects [J] . Kumar Nitish, Shi Xi, Hoffman Mark Journal of the European Ceramic Society . 2020,第6期

机译：自发放松在无铅松弛剂压电陶瓷中的铁电过渡和点缺陷的作用
4. Giant strain and compling effects of relaxor/ferroelectric lead-free composite piezoceramics [C] . Haibo Zhang, Wook Jo, Qi Zhang, IEEE International Symposium on the Applications of Ferroelectric . 2015

机译：弛豫/铁电无铅复合压电陶瓷巨型菌株和抱成效果
5. Studies of novel lead-free piezoelectric and relaxor ferroelectric materials [D] . Lei, Chao 2008

机译：新型无铅压电和弛豫铁电材料的研究
6. Revealing the core-shell interactions of a giant strain relaxor ferroelectric 0.75Bi1/2Na1/2TiO3-0.25SrTiO3 [O] . Na Liu, Matias Acosta, Shuai Wang, -1

机译：揭示巨大应变松弛铁电体0.75Bi1 / 2Na1 / 2TiO3-0.25SrTiO3的核-壳相互作用
7. Tailoring Low-field Strain Properties of 0.97Bi1/2(Na0.78K0.22)1/2TiO3-0.03LaFeO3-Bi1/2(Na0.82K0.18)1/2TiO3 Lead-Free Relaxor/Ferroelectric Composites [O] . Hong Chang-Hyo, Kang Jin-Kyu, Jo Wook, 2016

机译：0.97Bi1 / 2（Na0.78K0.22）1 / 2TiO3-0.03LaFeO3 -Bi1 / 2（Na0.82K0.18）1 / 2TiO3无铅弛豫/铁电复合材料的低场应变特性
8. Relaxor Ferroelectrics for Electrostrictive Transducers: Electrostrictive Strain/Dielectric Properties of Relaxor Ferroelectrics. [R] . 1991

机译：用于电致伸缩传感器的弛豫铁电体：弛豫铁电体的电致伸缩应变/介电特性。

Giant strain and compling effects of relaxor/ferroelectric lead-free composite piezoceramics

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