ELECTRO-MECHANICAL COUPLING OF PIEZOELECTRIC NANOCOMPOSITES

机译：压电纳米复合材料的机电耦合

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Energy harvesting technology that can increase the operation time and decrease the device size is urgently needed in wireless electronics, portable devices, and implantable biosensors. This paper reports the experimental study of electromechanical coupling ofPZT (piezoelectric) nanofiber composites which have the potential to be used for energy harvesting. The recorded voltage output was about 6mV in the experiments. In this paper, we will describe the fabrication of the piezoelectric nanocomposites and demonstrate the characteristics of electro-mechanical coupling using a dynamic mechanical test. The piezoelectric nanocomposite assembly could produce high voltage and power output to be used as a power source, which might be used for wireless sensors, personal electronics, implantable bio-sensors, and bio-actuators.

机译：在无线电子，便携式设备和可植入生物传感器中，迫切需要能够增加操作时间并减小设备尺寸的能量收集技术。本文报道了PZT（压电）纳米纤维复合材料机电耦合的实验研究，该复合材料具有用于能量收集的潜力。在实验中记录的电压输出约为6mV。在本文中，我们将描述压电纳米复合材料的制造，并使用动态力学测试演示机电耦合的特性。压电纳米复合材料组件可以产生高电压和高功率输出以用作电源，该电源可以用于无线传感器，个人电子设备，可植入生物传感器和生物致动器。

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来源
《ASME international design engineering technical conferences and computers and information in engineering conference 2010》|2010年|p.409-412|共4页
会议地点 Montreal(CA);Montreal(CA);Montreal(CA);Montreal(CA);Montreal(CA);Montreal(CA)
作者
Xi Chen; Shiyou Xu; Yong Shi;
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作者单位

Department of MechanicalrnEngineeringrnStevens Institute of Technology Hoboken, NJ 07030;

rnDepartment of MechanicalrnEngineeringrnStevens Institute of Technology Hoboken, NJ 07030;

rnDepartment of MechanicalrnEngineeringrnStevens Institute of Technology Hoboken, NJ 07030;

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正文语种 eng
中图分类工程设计;
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ELECTRO-MECHANICAL COUPLING OF PIEZOELECTRIC NANOCOMPOSITES

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