Design of graded piezoelectric metamaterial beam with spatial variation of electrodes
This work presents a novel strategy of broadband vibration attenuation using a graded piezoelectric metamaterial beam. A series of electrode pairs with varying lengths are applied to the fully covered piezoelectric beam, and each electrode pair is connected to an identical shunt resonant circuit. Un...
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sg-ntu-dr.10356-1639002022-12-21T06:41:23Z Design of graded piezoelectric metamaterial beam with spatial variation of electrodes Jian, Yupei Tang, Lihua Hu, Guobiao Li, Zhaoyu Aw, Kean C. School of Civil and Environmental Engineering Engineering::Mechanical engineering Bandgap Shunt Resonant Circuit This work presents a novel strategy of broadband vibration attenuation using a graded piezoelectric metamaterial beam. A series of electrode pairs with varying lengths are applied to the fully covered piezoelectric beam, and each electrode pair is connected to an identical shunt resonant circuit. Unlike the existing grading strategies, which normally consider the varying material properties of local resonators, the proposed graded metamaterial enables us to broaden the vibration attenuation region through varying spatial profiles. In this paper, the graded metamaterial beam is modeled analytically and verified by finite element. Subsequently, an analytical expression is derived to predict the “aggregated” gap region with graded electrodes. A parametric study on the transmittance response reveals that the increase of spatial variation of electrodes contributes to widening the attenuation region while weakening the attenuation strength. An optimization strategy aiming to enhance the overall attenuation performance is given, through which the graded piezoelectric metamaterial beam exhibits significant superiority over a non-graded one in terms of average transmittance. Further, an example shows that the damping induced by the load resistance in the shunt resonant circuit can dramatically reduce the resonant peaks inside the “aggregated” gap. With a properly selected resistance, a theoretical widest attenuation region is achieved by using the graded piezoelectric metamaterial beam, with 289.2% increase in the bandwidth as compared to the conventional one. This study differentiates itself as a powerful alternative to other grading strategies for realizing broadband vibration attenuation. This work was financially supported by a PhD scholarship from the China Scholarship Council (No. 201907000126) and the Faculty Research Development Fund from the University of Auckland (No. 3722094). 2022-12-21T06:41:23Z 2022-12-21T06:41:23Z 2022 Journal Article Jian, Y., Tang, L., Hu, G., Li, Z. & Aw, K. C. (2022). Design of graded piezoelectric metamaterial beam with spatial variation of electrodes. International Journal of Mechanical Sciences, 218, 107068-. https://dx.doi.org/10.1016/j.ijmecsci.2022.107068 0020-7403 https://hdl.handle.net/10356/163900 10.1016/j.ijmecsci.2022.107068 2-s2.0-85123034121 218 107068 en International Journal of Mechanical Sciences © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Mechanical engineering Bandgap Shunt Resonant Circuit Jian, Yupei Tang, Lihua Hu, Guobiao Li, Zhaoyu Aw, Kean C. Design of graded piezoelectric metamaterial beam with spatial variation of electrodes |
| description |
This work presents a novel strategy of broadband vibration attenuation using a graded piezoelectric metamaterial beam. A series of electrode pairs with varying lengths are applied to the fully covered piezoelectric beam, and each electrode pair is connected to an identical shunt resonant circuit. Unlike the existing grading strategies, which normally consider the varying material properties of local resonators, the proposed graded metamaterial enables us to broaden the vibration attenuation region through varying spatial profiles. In this paper, the graded metamaterial beam is modeled analytically and verified by finite element. Subsequently, an analytical expression is derived to predict the “aggregated” gap region with graded electrodes. A parametric study on the transmittance response reveals that the increase of spatial variation of electrodes contributes to widening the attenuation region while weakening the attenuation strength. An optimization strategy aiming to enhance the overall attenuation performance is given, through which the graded piezoelectric metamaterial beam exhibits significant superiority over a non-graded one in terms of average transmittance. Further, an example shows that the damping induced by the load resistance in the shunt resonant circuit can dramatically reduce the resonant peaks inside the “aggregated” gap. With a properly selected resistance, a theoretical widest attenuation region is achieved by using the graded piezoelectric metamaterial beam, with 289.2% increase in the bandwidth as compared to the conventional one. This study differentiates itself as a powerful alternative to other grading strategies for realizing broadband vibration attenuation. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Jian, Yupei Tang, Lihua Hu, Guobiao Li, Zhaoyu Aw, Kean C. |
| format |
Article |
| author |
Jian, Yupei Tang, Lihua Hu, Guobiao Li, Zhaoyu Aw, Kean C. |
| author_sort |
Jian, Yupei |
| title |
Design of graded piezoelectric metamaterial beam with spatial variation of electrodes |
| title_short |
Design of graded piezoelectric metamaterial beam with spatial variation of electrodes |
| title_full |
Design of graded piezoelectric metamaterial beam with spatial variation of electrodes |
| title_fullStr |
Design of graded piezoelectric metamaterial beam with spatial variation of electrodes |
| title_full_unstemmed |
Design of graded piezoelectric metamaterial beam with spatial variation of electrodes |
| title_sort |
design of graded piezoelectric metamaterial beam with spatial variation of electrodes |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163900 |
| _version_ |
1753801166014119936 |