1. Longitudinal vibration control of a double-rod system by employing nonlinear energy sinks.
- Author
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Zhao, Yuhao, Li, Zheng, Cui, Haijian, and Xu, Deshui
- Subjects
- *
NONLINEAR systems , *GALERKIN methods , *ENERGY consumption , *LONGITUDINAL method , *PREDICTION models , *SOIL vibration - Abstract
This study aims to potential the potential utilization of nonlinear energy sinks (NESs) for controlling longitudinal vibrations in a double-rod system. The research introduces a longitudinal vibration prediction model for a double-rod system equipped with NESs. The generalized Hamilton principle is employed to derive governing equations of the double-rod system. The longitudinal vibration responses of the double-rod system are numerically solved through the application of Galerkin truncation method. The longitudinal vibration responses of the double-rod system are impacted by NESs, as they yield accurate numerical results. The installation of both NES 1 and NES 2 concurrently is recommended for mitigating the vibration of the double-rod system. Under reasonable single-frequency excitations, modifying the parameters of NESs can significantly alter both the vibration state and magnitudes of vibration in the double-rod system. Furthermore, the synchronous optimization of parameters in NES 1 and NES 2 is crucial for effectively controlling vibrations in the double-rod system. Sensitive parameter areas of NESs provide the possibility of controlling the vibration of the double-rod system by utilizing NESs. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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