Vibration isolation performance enhancement using hybrid nonlinear inerter and negative stiffness based on linkage mechanism

Dai, Wei; Shi, Baiyang; Yang, · Jian

doi:10.1007/s42417-023-00879-8

Vibration isolation performance enhancement using hybrid nonlinear inerter and negative stiffness based on linkage mechanism

Dai, Wei; Shi, Baiyang; Yang, · Jian

Authors

Wei Dai

Baiyang Shi

· Jian Yang

Abstract

Purpose: To suppress the low-frequency vibration of dynamic systems such as underwater vehicles, this research proposes a novel geometrically nonlinear vibration isolator using hybrid nonlinear inertial andnegative stiffness element. Methods: A spring and an inerter are integrated together into a 4-rod linkage structure to form geometric nonlinearity. The performance of isolator under force or base-motion excitation is analysed. The performance of the proposed isolator in a flexible base structure simulating vibration isolation in ships is also considered. The transmissibilities and vibrational energy transfer are used to evaluate the effectiveness of isolation. Results: The results demonstrate better performance in low-frequency vibration isolation comparing to conventional linear isolator. The combined use of spring and inerter in the linkage mechanism can create a frequency band of ultra-low transmissibility and energy flow at low frequencies. Conclusion: Structural parameters of the proposed hybrid nonlinear element can be designed to alter the dynamic characteristic of the nonlinear isolator to attenuate low-frequency vibration transmission. The proposed nonlinear isolator demonstrates a strong potential for application in naval architecture.

Citation

Dai, W., Shi, B., & Yang, ·. J. (2024). Vibration isolation performance enhancement using hybrid nonlinear inerter and negative stiffness based on linkage mechanism. Journal of Vibration Engineering & Technologies, 12, 837–855. https://doi.org/10.1007/s42417-023-00879-8

Journal Article Type	Article
Acceptance Date	Jan 25, 2023
Online Publication Date	Feb 14, 2023
Publication Date	Jan 31, 2024
Deposit Date	Feb 15, 2023
Publicly Available Date	Feb 15, 2024
Journal	Journal of Vibration Engineering and Technologies
Print ISSN	2523-3920
Electronic ISSN	2523-3939
Publisher	Springer
Peer Reviewed	Peer Reviewed
Volume	12
Pages	837–855
DOI	https://doi.org/10.1007/s42417-023-00879-8
Keywords	Geometric nonlinearity; Vibration power flow; Vibration isolator; Inerter; Nonlinear spring
Public URL	https://uwe-repository.worktribe.com/output/10461525
Publisher URL	https://link.springer.com/article/10.1007/s42417-023-00879-8

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Copyright Statement
This is the author’s accepted manuscript. The final published version is available here: https://doi.org/10.1007/s42417-023-00879-8