Elastic foundation-introduced defective phononic crystals for tunable energy harvesting - Université d'Évry Access content directly
Journal Articles Mechanics of Materials Year : 2024

Elastic foundation-introduced defective phononic crystals for tunable energy harvesting

Gongye Zhang
Shaopeng Wang
Jun Hong
  • Function : Author
Yu Cong
Shuitao Gu

Abstract

Defective phononic crystals offer the advantage of concentrating elastic waves, thereby enhancing the potential for piezoelectric energy harvesting (PEH). However, a key limitation is their reliance on a fixed operating frequency, rendering them susceptible to the prevailing vibration environment. To surmount this constraint, this study introduces a novel approach involving a tunable elastic foundation system for defective phononic crystal structures. The newly developed phononic crystal is fashioned by integrating a periodically elastic foundation beneath a uniform beam. A defect is induced by selectively removing specific elastic foundations and integrating piezoelectric components. Explicit analytical solutions are established through the transfer matrix method and the spectral element method, which are subsequently corroborated via comparison with finite element results. The findings underscore that the periodic elastic foundations impart bandgaps in the elastic wave band structure. The absence of specific elastic foundations results in the emergence of distinct defect modes. Additionally, frequency response analysis exposes the potential for energy enhancement, albeit with inherent variations. Noteworthy is the revelation that manipulating the stiffness of the elastic foundation triggers shifts in the resonant frequency of the output voltage. Therefore, the proposed tunable elastic foundation system exhibits promising potential to engender versatile and adaptive phononic crystal configurations, thereby advancing the domain of PEH.
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Dates and versions

hal-04443608 , version 1 (07-02-2024)

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Gongye Zhang, Zhuangzhuang He, Shaopeng Wang, Jun Hong, Yu Cong, et al.. Elastic foundation-introduced defective phononic crystals for tunable energy harvesting. Mechanics of Materials, 2024, pp.104909. ⟨10.1016/J.MECHMAT.2024.104909⟩. ⟨hal-04443608⟩
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