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不同形状压电振子的振动发电行为研究 被引量:16

Study on Vibration Energy Harvesting Behaviors of Piezoelectric Cantilevers with Different Geometries
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摘要 利用压电振子将环境振动能量转化为电能是无线传感器自供电领域的一个研究热点,而压电振子的几何形状是影响其振动发电的重要因素之一。该文针对矩形、梯形、三角形3种形状的压电振子,首先从理论上推导了它们的应变表达式,然后对3种压电振子分别进行了有限元建模和静力学仿真分析,最后进行了实验验证。仿真和实验结果表明,在相同条件下,三角形压电振子明显改善了应变分布,产生的电压最大,梯形压电振子次之,而矩形压电振子最小,可用于指导实际中压电振子结构形状的优化设计。 Acquiring the electric energy from ambient environment vibrations for self-powering wireless sensors has been a research hot-spot based on piezoelectric vibrators and the geometry of a piezoelectric cantilever beam will greatly affects its vibration energy harvesting ability.As to three of rectangular,trapezoidal and triangular piezoelectric cantilevers,their strain formulations are deduced theoretically respectively in this paper.Then their finite element models and static simulating analysis are presented.In the end experiments are done to test the results.Simulation and experiment results demonstrate that under the same conditions using the triangular cantilever beams can improve the strain distribution and generate more voltage than the trapezoidal and rectangular,and the least is rectangular ones.Thus the proposed method can provide theoretical principles of optimal designing piezoelectric cantilever beams for vibration energy harvesting in practice.
作者 邓冠前 陈仲生 陶利民
机构地区 国防科技大学机电工程与自动化学院
出处 《压电与声光》 CSCD 北大核心 2010年第3期440-443,446,共5页 Piezoelectrics & Acoustooptics
基金 武器装备预研基金资助项目 国防基础科研基金资助项目 国家自然科学基金资助项目(50805142)
关键词 压电振子 悬臂梁 振动能量捕获 有限元仿真 piezoelectric vibrators cantilever beams vibration energy harvesting finite element simulation
分类号 TN384 [电子电信—物理电子学] TB123 [理学—工程力学]
  • 相关文献

参考文献5

  • 1KIM Sunghwan, CLARK W W, WANG Qingming. Piezoelectric energy harvesting using a diaphragm structure[C]//San Diego, CA, USA: Sensors and Smart Structures, 2006, 5 055: 307-308.
  • 2BAKER J, ROUNDY S, WRIGHT P, Alternative geometries for Increasing power density in vibration energy scavenging for wireless sensor networks [C]// California: 3rd International Energy Conversion Engineering Conference, 2005, 8: 1-12.
  • 3胡晓冰,褚祥诚,李龙土,桂治轮.多层压电陶瓷变压器振动模态分析与测量[J].压电与声光,2003,25(3):245-248. 被引量:5
  • 4ANDERSON T A, SEXTON D W. A vibration energy harvesting sensor platform for Increased Industrial efficiency[C]//San Diego, CA, USA: Sensors and Smart Structures,2006, 6174: 1-9.
  • 5张福学.现代压电学[M].北京:科学出版社,2001..

二级参考文献3

  • 1LI Long-tu, DENG Wei-ti,CHAI Jing-he,et al. Lead zirconate titanate ceramics and monolithic piezoelectric transformer of low firing temperature [J]. Ferroelectrics, 1990 ; 101 : 193-200.
  • 2Polytec 公司. Polytec scanning vibrometer PSV 300 hardware manual[R], Germany, 2001.
  • 3ROSEN C A. Ceramic transformers and wave filters[C]. Proceedings of Electronic Component Symposium, 1957 : 205- 211.

共引文献90

同被引文献79

  • 1张福学.现代压电学[M].北京:科学出版社,2001..
  • 2WILLIAMS C B, SHEARWOOD S, YATES R B, et al. Development of an electromagnetic micro-generator[J]. !EEE Proc.. Circuits, Devices and Syst, 2001,148 (6) :337-342.
  • 3赵志岗.材料力学[M].天津:天津大学出版社,2007.
  • 4Juan Pu, Xiaojun Yan, Yadong Jiang, etc. Piezoelectric ac tuation of direct-write electrospun fibers[J]. Sensors and Actuators A: Physical, 2010, 164:131-136.
  • 5Aliza Aini Md Ralib, Anis Nurashikin Nordin, Hanim Salleh. A comparative study on MEMS piezoelectric microgenerators[J]. Microsyst Technol, 2010, 1673: 1-1681.
  • 6Baker Jessy, Roundy Shad, Wright Paul. Alternative geometries for increasing power density in vibration energy scavenging for wireless sensor networks[C]. 3rd International Energy Conversion Conference. 2005, 5: 1-12.
  • 7U Gabbert, J Lefe'vre, F Laugwitz, etc. Modelling and analysis of piezoelectric smart structures for vibration and noise control [J]. International Journal of Applied Electromagnetics and Mechanics, 2009, 31: 29-39.
  • 8Jimenez R, Calzada M.L, Gonzalez A, etc. Nanoscale properties of ferroelectric ultrathin SBT films[J]. Journal of the European Ceramic Society, 2004, 24(2): 319-323.
  • 9LEFEUVRE E, BADEL A, RICHARD C, et al. A comparison between several vibration-powered piezoe- lectric generators for standalone systems[J]. Sensors and Actuators A, 2006, 126: 405-416.
  • 10FANG H B, LIU J Q, XU Z Y, et al. Fabrication and perform of MEMS-based piezoelectric power gen- erator for vibration energy harvesting[-J]. Microelec- tionics Journal, 2006, 37: 1280-1284.

引证文献16

二级引证文献43

压电与声光
2010年 第3期

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