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Piezoelectric metastructures for simultaneous broadband energy harvesting and vibration suppression of traveling waves

Z Lin, H Al Ba’ba’a, S Tol

2021Smart Materials and Structures39 citationsDOIOpen Access PDF

Abstract

Abstract In this paper, we explore an electromechanical metastructure consisting of a periodic array of piezoelectric bimorphs with resistive-inductive loads for simultaneous harvesting and attenuation of traveling wave energy. We develop fully coupled analytical models, i.e. an electroelastic transfer matrix method, and exploit both locally-resonant and Bragg band gaps to achieve a multifunctional metastructure which is capable for maximum energy conversion and vibration mitigation in a broadband fashion. Our analytical and numerical results show that the proposed metastructure can achieve energy harvesting efficiency up to 95% at the local resonance frequency of 3.18 kHz, while reaching about 51% at 5.8 kHz near the upper limit of the Bragg band gap. The broadband vibration mitigation performance based on 50% power attenuation is predicted as 1.8 and 1.1 kHz in the vicinity of the band gaps. The theoretical frameworks and the applicability of the proposed metastructure are validated using a full-scale experimental setup.

Topics & Concepts

Energy harvestingPiezoelectricityBroadbandMaterials scienceTransfer-matrix method (optics)VibrationAttenuationAcousticsTransfer matrixFrequency bandEnergy (signal processing)MetamaterialVibration controlResonance (particle physics)OpticsMatrix (chemical analysis)Electricity generationEnergy transformationPower (physics)Bragg's lawLimit (mathematics)Energy conversion efficiencyFrequency responseAcoustic Wave Phenomena ResearchInnovative Energy Harvesting TechnologiesAeroelasticity and Vibration Control