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首页> 外文期刊>Applied Physics Letters >Enhancing weak magnetic field MME coupling in NdFeB magnet/piezoelectric composite cantilevers with stress concentration effect
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Enhancing weak magnetic field MME coupling in NdFeB magnet/piezoelectric composite cantilevers with stress concentration effect

机译:用应力集中效应增强NDFEB磁铁/压电复合悬臂中的弱磁场MME联轴器

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摘要

In this work, we theoretically and experimentally report a NdFeB magnet/piezoelectric composite cantilever with varying stiffness for enhancing magneto-mechano-electric (MME) coupling under weak AC magnetic field H_(ac) excitation. Measurement results show that the MME composite cantilever can produce a relatively high peak-peak output power of 12.8 mW and a peak-peak current of 0.735 mA_(pp) under H_(ac) = 7 Oe at a resonance frequency of 36 Hz. Even when H_(ac) is as low as 0.2 Oe, equivalent to the level of the earth magnetic field, it can still drive 4 LED lighting. The obtained results are obviously superior to previous reports, confirming the MME cantilever harvester has potential to harvest the stray magnetic field energy from electrical power cables for continuously powering wireless sensor networks.
机译:在这项工作中,理论上和实验地报告了NDFEB磁铁/压电复合悬臂,其具有不同的刚度,用于增强弱AC磁场H_(AC)激发下的磁力电气(MME)耦合。 测量结果表明,MME复合悬臂可以在36Hz的共振频率下在H_(AC)= 7 OE下产生12.8mW的相对高峰峰值输出功率和0.735 mA_(PP)的峰值峰值电流。 即使H_(AC)低至0.2 OE时,相当于地球磁场的水平,它仍然可以驱动4个LED照明。 获得的结果显然优于先前的报告,确认MME悬臂收割机具有从电力电缆收获杂散磁场能量,以便连续供电无线传感器网络。

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  • 来源
    《Applied Physics Letters》 |2021年第13期|132902.1-132902.6|共6页
  • 作者

    Zhonghui Yu; Zhaoqiang Chu; Jikun Yang; Mohammad Javad Pourhosseini Asl; Zhanmiao Li; Shuxiang Dong;

  • 作者单位

    School of Materials Science and Engineering Peking University 100871 Beijing China;

    College of Underwater Acoustic Engineering Harbin Engineering University Harbin 150001 China;

    School of Materials Science and Engineering Peking University 100871 Beijing China;

    School of Materials Science and Engineering Peking University 100871 Beijing China;

    School of Materials Science and Engineering Peking University 100871 Beijing China;

    School of Materials Science and Engineering Peking University 100871 Beijing China Beijing Key Laboratory for Magnetoelectric Materials and Devices (BKL-MEMD) Peking University 100871 Beijing China;

  • 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);
  • 原文格式 PDF
  • 正文语种 eng
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