High-fidelity dynamics of piezoelectric covered metamaterial Timoshenko beams using the spectral element method
Piezoelectric metamaterial beams have received enormous research interest for the applications of vibration attenuation and/or energy harvesting in recent years. This paper presents a generic modelling approach for predicting the high-frequency dynamics of piezoelectric metamaterial beams. The spect...
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sg-ntu-dr.10356-1710812023-10-11T08:46:28Z High-fidelity dynamics of piezoelectric covered metamaterial Timoshenko beams using the spectral element method Hu, Guobiao Tang, Lihua Yang, Yaowen Yu, Dewen Zi, Yunlong School of Civil and Environmental Engineering Engineering::Civil engineering Piezoelectric Metamaterial Timoshenko Beam Piezoelectric metamaterial beams have received enormous research interest for the applications of vibration attenuation and/or energy harvesting in recent years. This paper presents a generic modelling approach for predicting the high-frequency dynamics of piezoelectric metamaterial beams. The spectral element method (SEM) is used to derive the dynamic stiffness matrix of a composite piezoelectric beam segment. Boundary condition implementations are demonstrated. Both band structure and transmittance analyses are realized. Several case studies for piezoelectric metamaterial beams configured in different geometric/electrical forms are carried out. The corresponding finite element (FE) models are built for verification, and a comparison study with the transfer matrix method (TMM) is conducted. For the uniform configurations, an almost indistinguishable difference is noted between the theoretical and FE results. For the stepped configurations, only minor discrepancies are observed in the high-frequency responses. The improved robustness and stability of the SEM method compared to the TMM method are demonstrated. A further discussion has been provided to explain the cause of the high-frequency discrepancies: sudden changes in the cross-section of the beam result in the stress concentration effect and reduce the bending stiffness at the junction connection. Finally, the value of the high-fidelity modelling approach is reflected through a parametric-based optimization study towards merging the Bragg scattering and locally resonant band gaps in an example piezoelectric metamaterial beam to achieve a wide band gap. This work was financially supported by the State Key Laboratory of Structural Analysis for Industrial Equipment, Dalian University of Technology, China (GZ21114, S22311). 2023-10-11T08:46:28Z 2023-10-11T08:46:28Z 2023 Journal Article Hu, G., Tang, L., Yang, Y., Yu, D. & Zi, Y. (2023). High-fidelity dynamics of piezoelectric covered metamaterial Timoshenko beams using the spectral element method. Smart Materials and Structures, 32(9), 095023-. https://dx.doi.org/10.1088/1361-665X/aceba5 0964-1726 https://hdl.handle.net/10356/171081 10.1088/1361-665X/aceba5 2-s2.0-85167865641 9 32 095023 en Smart Materials and Structures © 2023 IOP Publishing Ltd. All rights reserved. |
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Engineering::Civil engineering Piezoelectric Metamaterial Timoshenko Beam Hu, Guobiao Tang, Lihua Yang, Yaowen Yu, Dewen Zi, Yunlong High-fidelity dynamics of piezoelectric covered metamaterial Timoshenko beams using the spectral element method |
| description |
Piezoelectric metamaterial beams have received enormous research interest for the applications of vibration attenuation and/or energy harvesting in recent years. This paper presents a generic modelling approach for predicting the high-frequency dynamics of piezoelectric metamaterial beams. The spectral element method (SEM) is used to derive the dynamic stiffness matrix of a composite piezoelectric beam segment. Boundary condition implementations are demonstrated. Both band structure and transmittance analyses are realized. Several case studies for piezoelectric metamaterial beams configured in different geometric/electrical forms are carried out. The corresponding finite element (FE) models are built for verification, and a comparison study with the transfer matrix method (TMM) is conducted. For the uniform configurations, an almost indistinguishable difference is noted between the theoretical and FE results. For the stepped configurations, only minor discrepancies are observed in the high-frequency responses. The improved robustness and stability of the SEM method compared to the TMM method are demonstrated. A further discussion has been provided to explain the cause of the high-frequency discrepancies: sudden changes in the cross-section of the beam result in the stress concentration effect and reduce the bending stiffness at the junction connection. Finally, the value of the high-fidelity modelling approach is reflected through a parametric-based optimization study towards merging the Bragg scattering and locally resonant band gaps in an example piezoelectric metamaterial beam to achieve a wide band gap. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Hu, Guobiao Tang, Lihua Yang, Yaowen Yu, Dewen Zi, Yunlong |
| format |
Article |
| author |
Hu, Guobiao Tang, Lihua Yang, Yaowen Yu, Dewen Zi, Yunlong |
| author_sort |
Hu, Guobiao |
| title |
High-fidelity dynamics of piezoelectric covered metamaterial Timoshenko beams using the spectral element method |
| title_short |
High-fidelity dynamics of piezoelectric covered metamaterial Timoshenko beams using the spectral element method |
| title_full |
High-fidelity dynamics of piezoelectric covered metamaterial Timoshenko beams using the spectral element method |
| title_fullStr |
High-fidelity dynamics of piezoelectric covered metamaterial Timoshenko beams using the spectral element method |
| title_full_unstemmed |
High-fidelity dynamics of piezoelectric covered metamaterial Timoshenko beams using the spectral element method |
| title_sort |
high-fidelity dynamics of piezoelectric covered metamaterial timoshenko beams using the spectral element method |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171081 |
| _version_ |
1781793677812695040 |