加速度计
摩擦电效应
材料科学
纳米发生器
声学
振动
加速度
压电
流离失所(心理学)
计算机科学
复合材料
物理
心理学
经典力学
操作系统
心理治疗师
作者
Yu Hua,Xu He,Wenbo Ding,Yongshan Hu,Dongchen Yang,Shan Lu,Changsheng Wu,Haiyang Zou,Ruiyuan Liu,Canhui Lu,Zhong Lin Wang
标识
DOI:10.1002/aenm.201700565
摘要
Abstract An integrated self‐powered dynamic displacement monitoring system by utilizing a novel triboelectric accelerometer for structural health monitoring is proposed and implemented in this study, which can show the dynamic displacement and transmit the alarming signal by accurately sensing the vibration acceleration. The fabricated triboelectric accelerometer based on the noncontact freestanding triboelectric nanogenerator consists of an outer transparent sleeve tube and an inner cylindrical inertial mass that is suspended by a highly stretchable silicone fiber. One pair of copper film electrodes is deposited by physical vapor deposition on nylon film and adhered on the inner wall of the outer tube, while a fluorinated ethylene propylene film with nanowire structures is adhered on the surface of the inner cylindrical inertial mass. The experimental results show that proposed triboelectric accelerometer can accurately sense the vibration acceleration with a high sensitivity of 0.391 V s 2 m −1 . In particular, the developed accelerometer has superior performance within the low‐frequency range. One of the most striking features is that the commercial accelerometer using piezoelectric material is strongly dominated by high‐order harmonics, which can cause confusion in computer data analysis. In contrast, the triboelectric accelerometer is only dominated by the base resonance mode.
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