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Design of low-frequency circular metastructure isolators with high-load-bearing capacity

Ning Chen, Zhichun Yang, Te YANG, Yizhou Shen, Wei Tian, Yanlong Xu

2024Chinese Journal of Aeronautics24 citationsDOIOpen Access PDF

Abstract

Traditional vibration isolation structures cannot work effectively for low-frequency vibration under heavy loads, due to the inherent contradiction between the high-static and low-dynamic stiffness of these structures. Although the challenge can be effectively addressed by introducing a negative stiffness mechanism, the existing structures inevitably have complex configurations. Metastructures, a class of man-made structures with both extraordinary mechanical properties and simple configurations, provide a new insight for low-frequency vibration isolation technology. In this paper, circular metastructure isolators consisting of some simple beams are designed for low-frequency vibration, including a single-layer isolator and a double-layer isolator, and their static and dynamic characteristics are studied, respectively. For the static characteristic, the force-displacement and stiffness-displacement curves are obtained by finite element simulation; for the dynamic characteristic, the vibration transmissibility curves are obtained analytically and numerically. The result shows that the circular nonlinear single-layer isolator has excellent low-frequency isolation performance, and the isolation frequency band will decrease about 20 Hz when the isolated mass is fixed at 1.535 kg, compared with a similar circular linear isolator. These static and dynamic properties are well verified through experiments. Our work provides an innovative approach for the low-frequency vibration isolation and has wide potential applications in aeronautics.

Topics & Concepts

IsolatorTransmissibility (structural dynamics)Vibration isolationStructural engineeringVibrationDisplacement (psychology)StiffnessLow frequencyNonlinear systemFinite element methodAcousticsMaterials scienceEngineeringPhysicsElectronic engineeringTelecommunicationsPsychotherapistQuantum mechanicsPsychologyVibration Control and Rheological FluidsSeismic Performance and AnalysisStructural Engineering and Vibration Analysis
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