Dynamic analysis of a dielectric elastomer-based bistable system
Dynamic analysis of a dielectric elastomer-based bistable system
Bistable structures, which are capable of oscillating between two stable states, have garnered significant attention and have been applied in many engineering domains due to their nonlinear behaviors. This paper presents for the first time a physical nonlinear bistable structure comprising a circular dielectric elastic membrane (DEM) coupled with four linear springs, enabling the DEM to achieve large deformations with the system oscillating between two stable equilibrium states. The nonlinear dynamics of the proposed bistable system under harmonic excitation is investigated through analytical, experimental, and numerical methods. First, the system structure is introduced and the corresponding dynamic model is established using Euler-Lagrange equations. Subsequently, the restoring forces of the DEM are experimentally measured, and the dynamic behavior of the bistable system is experimentally tested to validate the theoretical model. Furthermore, the dynamic responses of the system under different excitations are fully studied, and the influences of some key system parameters on the system response are analyzed. Research results demonstrate that the proposed structure exhibits bistable behavior under external excitation and the dynamic behavior of the system can be accurately predicted using the derived theoretical model. The proposed bistable structure contains rich dynamic behaviors including periodic motion, period-doubling bifurcations, and chaotic vibrations. The obtained parameters adjusting rules provide guidelines for the control of system's responses, which have potential applications in many fields such as vibration mitigation and energy harvesting.
bistable system, dielectric elastomer, dynamic analysis, nonlinearity
Wang, Zhouzhou
fa53c391-00ab-4936-86c6-cfe6c60aa36e
Fang, Shitong
4f9ff7ec-7375-46a8-8782-317c6d575382
Feng, Aijie
944b0712-812b-4d25-94a9-b62c57080d40
Wu, Mengyao
eef1990a-8f1c-4c93-b9b9-27b80cc198e0
Lin, Bangjie
851c2629-5b4f-452f-b39f-307099620cc0
Shi, Runye
3888aaf7-cda6-405a-8e2e-2f4cad16a9f5
Qiao, Zijian
00c20d02-99f9-43d2-9dee-1ed76d184227
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Lai, Zhihui
c7420c67-2b8f-4cb1-800a-7e02501111c1
3 December 2023
Wang, Zhouzhou
fa53c391-00ab-4936-86c6-cfe6c60aa36e
Fang, Shitong
4f9ff7ec-7375-46a8-8782-317c6d575382
Feng, Aijie
944b0712-812b-4d25-94a9-b62c57080d40
Wu, Mengyao
eef1990a-8f1c-4c93-b9b9-27b80cc198e0
Lin, Bangjie
851c2629-5b4f-452f-b39f-307099620cc0
Shi, Runye
3888aaf7-cda6-405a-8e2e-2f4cad16a9f5
Qiao, Zijian
00c20d02-99f9-43d2-9dee-1ed76d184227
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Lai, Zhihui
c7420c67-2b8f-4cb1-800a-7e02501111c1
Wang, Zhouzhou, Fang, Shitong, Feng, Aijie, Wu, Mengyao, Lin, Bangjie, Shi, Runye, Qiao, Zijian, Yurchenko, Daniil and Lai, Zhihui
(2023)
Dynamic analysis of a dielectric elastomer-based bistable system.
Journal of Sound and Vibration, 572, [118183].
(doi:10.1016/j.jsv.2023.118183).
Abstract
Bistable structures, which are capable of oscillating between two stable states, have garnered significant attention and have been applied in many engineering domains due to their nonlinear behaviors. This paper presents for the first time a physical nonlinear bistable structure comprising a circular dielectric elastic membrane (DEM) coupled with four linear springs, enabling the DEM to achieve large deformations with the system oscillating between two stable equilibrium states. The nonlinear dynamics of the proposed bistable system under harmonic excitation is investigated through analytical, experimental, and numerical methods. First, the system structure is introduced and the corresponding dynamic model is established using Euler-Lagrange equations. Subsequently, the restoring forces of the DEM are experimentally measured, and the dynamic behavior of the bistable system is experimentally tested to validate the theoretical model. Furthermore, the dynamic responses of the system under different excitations are fully studied, and the influences of some key system parameters on the system response are analyzed. Research results demonstrate that the proposed structure exhibits bistable behavior under external excitation and the dynamic behavior of the system can be accurately predicted using the derived theoretical model. The proposed bistable structure contains rich dynamic behaviors including periodic motion, period-doubling bifurcations, and chaotic vibrations. The obtained parameters adjusting rules provide guidelines for the control of system's responses, which have potential applications in many fields such as vibration mitigation and energy harvesting.
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Accepted/In Press date: 25 November 2023
e-pub ahead of print date: 29 November 2023
Published date: 3 December 2023
Keywords:
bistable system, dielectric elastomer, dynamic analysis, nonlinearity
Identifiers
Local EPrints ID: 487378
URI: http://eprints.soton.ac.uk/id/eprint/487378
ISSN: 0022-460X
PURE UUID: 6454f4cc-f54e-4830-9811-b2be0460879f
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Date deposited: 20 Feb 2024 02:50
Last modified: 18 Mar 2024 04:04
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Contributors
Author:
Zhouzhou Wang
Author:
Shitong Fang
Author:
Aijie Feng
Author:
Mengyao Wu
Author:
Bangjie Lin
Author:
Runye Shi
Author:
Zijian Qiao
Author:
Daniil Yurchenko
Author:
Zhihui Lai
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