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Analysis of vibration suppression performance of parallel nonlinear energy sink

Weizhi Song, Zhien Liu, Chihua Lu, Bin Li, Nie Fuquan

2022Journal of Vibration and Control25 citationsDOI

Abstract

With the increase of excitation, the nonlinear energy sink (NES) will cause the controlled system to produce high branch response and lead to sudden failure. Increasing the mass of the NES can prevent the generation of high branch within a certain range, but high-precision instruments such as aerospace have strict requirements for additional mass. A parallel NES (PNES) is proposed to improve the robustness without increasing the mass. The slow flow equations of the system are derived by using complexification-averaging (CX-A) method, and the vibration suppression performance of the PNES is analyzed from the frequency domain. Compared with purely cubic stiffness NES (CNES), it is found that PNES has better performance near the main resonance. And it is not easy to produce high branch response under the same excitation intensity. Finally, the performance of PNES and CNES is compared by numerical method from time domain and energy spectrum. The results show that when PNES is attached, the attenuation time of the controlled system is shorter under impact excitation, much more, the controlled system has a smaller energy amplitude near the main resonance under harmonic excitation.

Topics & Concepts

Nonlinear systemExcitationRobustness (evolution)VibrationControl theory (sociology)AmplitudeMechanicsFrequency domainTime domainAcousticsPhysicsComputer scienceMathematicsOpticsMathematical analysisChemistryControl (management)GeneArtificial intelligenceComputer visionQuantum mechanicsBiochemistryVibration Control and Rheological FluidsSeismic Performance and AnalysisVibration and Dynamic Analysis
Analysis of vibration suppression performance of parallel nonlinear energy sink | Litcius