Piezoelectricity above the Curie temperature? Combining flexoelectricity and functional grading to enable high-temperature electromechanical coupling

R. Mbarki; N. Baccam; Kaushik Dayal; P. Sharma

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Piezoelectricity above the Curie temperature? Combining flexoelectricity and functional grading to enable high-temperature electromechanical coupling

机译：居里温度以上的压电？将柔电和功能分级相结合，以实现高温机电耦合

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Most technologically relevant ferroelectrics typically lose piezoelectricity above the Curie temperature. This limits their use to relatively low temperatures. In this Letter, exploiting a combination of flexoelectricity and simple functional grading, we propose a strategy for high-temperature electromechanical coupling in a standard thin film configuration. We use continuum modeling to quantitatively demonstrate the possibility of achieving apparent piezoelectric materials with large and temperature-stable electromechanical coupling across a wide temperature range that extends significantly above the Curie temperature. With Barium and Strontium Titanate, as example materials, a significant electromechanical coupling that is potentially temperature-stable up to 900℃ is possible.

机译：大多数技术上相关的铁电材料通常会在居里温度以上失去压电性。这将它们的使用限制在较低的温度下。在这封信中，我们将柔度电和简单的功能分级结合起来，提出了一种在标准薄膜配置中进行高温机电耦合的策略。我们使用连续模型来定量地证明，在明显高于居里温度的宽温度范围内，通过大型且温度稳定的机电耦合获得表观压电材料的可能性。以钛酸钡和锶锶作为示例材料，可能在高达900℃的温度下保持稳定的有效机电耦合。

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来源
《Applied Physics Letters》 |2014年第12期|122904.1-122904.4|共4页
作者
R. Mbarki; N. Baccam; Kaushik Dayal; P. Sharma;
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作者单位

Department of Mechanical Engineering, University of Houston, Houston, Texas 77204, USA;

Department of Mathematics, Southwestern University, Georgetown, Texas 78626, USA;

Department of Civil and Environmental Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania 15213, USA;

Department of Mechanical Engineering and Department of Physics, University of Houston, Houston, Texas 77204, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Piezoelectricity above the Curie temperature? Combining flexoelectricity and functional grading to enable high-temperature electromechanical coupling [J] . Applied Physics Letters . 2014,第12期

机译：居里温度以上的压电？将柔电和功能分级相结合，以实现高温机电耦合
2. Influence of Flexoelectricity on Electromechanical Properties of Functionally Graded Piezoelectric Nanobeams Based on Modified Couple Stress Theory [J] . Chu Liangliang, Dui Guansuo, Yan Zhi, International journal of applied mechanics . 2018,第9期

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3. Size-dependent electromechanical coupling in functionally graded flexoelectric nanocylinders [J] . Chu Liangliang, Li Yanbin, Dui Guansuo Acta Mechanica . 2019,第9期

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5. A Non-Local Third Order Theory of Functionally Graded Plates Under Electromechanical Coupling Effect [D] . Kim, Jinseok. 2017

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6. Coupling Analysis of Flexoelectric Effect on Functionally Graded Piezoelectric Cantilever Nanobeams [O] . Yuhang Chen, Maomao Zhang, Yaxuan Su, 2021

机译：燃料效应对功能梯度压电悬臂纳米孔的耦合分析
7. Piezoelectricity above the Curie temperature? Combining flexoelectricity and functional grading to enable high-temperature electromechanical coupling [O] . Mbarki R., Baccam N., Dayal Kaushik, 2014

机译：居里温度以上的压电？将柔电和功能分级相结合，以实现高温机电耦合

Piezoelectricity above the Curie temperature? Combining flexoelectricity and functional grading to enable high-temperature electromechanical coupling

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