Harvesting vibration energy by quad-stable piezoelectric cantilever beam: Modeling, fabrication and testing

IF 4.4 2区 工程技术 Q1 MECHANICS European Journal of Mechanics A-Solids Pub Date : 2024-07-09 DOI:10.1016/j.euromechsol.2024.105389
Amin Nadertehrani, Saeed Ziaei-Rad, Reza Eshtehardiha
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Abstract

The combination of beams with piezoelectric patches has become a prevalent energy harvesting tool due to its ease of use. Typical energy harvesting systems are usually linear, and their efficiency is not satisfying due to low-frequency bandwidth. In this paper, a quad-stable piezoelectric vibration energy harvester is analyzed both numerically and experimentally. The primary purpose of this investigation is to analyze the static and dynamic characteristics of a proposed quad-stable system to consider its potential for application in broadband energy harvesting comprehensively. The harvester system consists of a slotted cantilever beam, a piezoelectric patch, a pair of tip-mass blocks, and a double-sided clip. The cantilever beam is subjected to pre-displacement constraints made by a mutual self-constraint at the free end of it. The nonlinear behaviors of the harvester system, including snap-through and softening phenomena, are analyzed using the assumed modes and finite element method (FEM). The harvester's vibration equation is solved numerically and through an FE model which is made by an in-house finite element software. A prototype is designed and fabricated to validate the mathematical model and FE simulation. The experimental force-displacement diagram of the harvester displays distinct discontinuities, reflecting abrupt transitions occurring while switching its stable states. The prototype dynamics are analyzed by harmonic base excitation with different amplitude levels in two conditions, including the presence and absence of the piezoelectric patch. The results obtained from the mathematical and FEM model demonstrate a satisfactory correlation with the experimental data. Furthermore, the experimental data reveal the occurrence of the snap-through phenomenon, accompanied by a significant widening of the frequency bandwidth at relatively high amplitude levels. The system has the ability to provide an average output electrical power of 0.288 mW for an electrical resistance of 3.262 kΩ at the excitation frequency of 12.695 Hz and base acceleration amplitude of 3g.

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利用四稳压电悬臂梁收集振动能量:建模、制造和测试
由于易于使用,光束与压电贴片的结合已成为一种普遍的能量收集工具。典型的能量收集系统通常是线性的,由于低频带宽的原因,其效率并不令人满意。本文通过数值和实验分析了一种四稳态压电振动能量收集器。这项研究的主要目的是分析所提出的四稳系统的静态和动态特性,以全面考虑其在宽带能量采集中的应用潜力。采集器系统由开槽悬臂梁、压电贴片、一对顶端质量块和一个双面夹组成。悬臂梁的自由端受到相互自约束的预位移约束。利用假定模式和有限元法(FEM)分析了收割机系统的非线性行为,包括卡穿和软化现象。收割机的振动方程通过内部有限元软件制作的有限元模型进行数值求解。为验证数学模型和有限元模拟,设计并制造了一个原型。收割机的实验力-位移图显示出明显的不连续性,反映了在切换稳定状态时发生的突然转变。在有压电贴片和没有压电贴片的两种条件下,通过不同振幅水平的谐波基激励对原型进行了动力学分析。数学模型和有限元模型得出的结果与实验数据具有令人满意的相关性。此外,实验数据显示,在相对较高的振幅水平下,伴随着频率带宽的显著拓宽,出现了快穿现象。在激励频率为 12.695 Hz、基础加速度振幅为 3g 时,电阻为 3.262 kΩ 的系统能够提供 0.288 mW 的平均输出功率。
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来源期刊
CiteScore
7.00
自引率
7.30%
发文量
275
审稿时长
48 days
期刊介绍: The European Journal of Mechanics endash; A/Solids continues to publish articles in English in all areas of Solid Mechanics from the physical and mathematical basis to materials engineering, technological applications and methods of modern computational mechanics, both pure and applied research.
期刊最新文献
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