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Morphology control and piezoelectric response of Na0.5Bi0.5TiO3 synthesized via a hydrothermal method

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Release time:2017-02-17
Journal:CrystEngComm
Abstract:压电纤维复合物在驱动、传感、结构健康检测等领域具有广泛应用，研究压电纤维复合物的驱动性能对于压电纤维复合物实际应用具有重要意义。通过实验研究不同驱动电压条件(峰值、频率及偏置)对压电纤维复合物悬臂梁结构顶端位移的影响，探讨悬臂梁基板材料与压电纤维复合物驱动性能的关系，基于欧拉?伯努利梁理论利用悬臂梁顶端位移计算压电纤维复合物的驱动力。结果表明：压电纤维复合物的驱动性能具有明显的迟滞性。悬臂梁顶端位移的大小与驱动电压峰的峰值呈线性关系，且其不仅与驱动电压的峰值有关，还与驱动电压的偏置、频率有关。
Note:https://doi.org/10.1039/C5CE02248G
Co-author:Dou Zhang*, Kechao Zhou, Hang Luo, Chao Chen, Chao Jiang, Xuefan Zhou
Document Type:J
Volume:18
Page Number:1302-1310
Translation or Not:no
Date of Publication:2016-11-30
Links to published journals:http://xueshu.baidu.com/s?wd=paperuri%3A%280f92a1b50f592e2b8a850ee7e4c43304%29&ie=utf-8&filter=sc_long_sign&sc_ks_para=q%3D悬臂梁基板对压电纤维复合物驱动性能的影响&tn=SE_baiduxueshu_c1gjeupa

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