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An improved method for bandgap calculation of a locally resonant plate with multi-periodic of multiple degree-of-freedom resonators

Qiaojiao Li, Meiping Sheng

2021Journal of Applied Physics15 citationsDOI

Abstract

An improved plane wave expansion (PWE) method is developed based on the governing equations of a lattice unit cell, providing support for calculating the band structures of a locally resonant (LR) plate with multiple arrays of multiple degree-of-freedom resonators. The extended plane wave expansion (EPWE) method is correspondingly presented to obtain the complex band structures of the LR plate. Then the bandgap properties of LR plate systems with single/multiple arrays of single/multiple degree-of-freedom resonators are analyzed, which present a good agreement with the results calculated by the classical theory or finite element method. Compared with the classical theory, the improved PWE and EPWE methods have excellent efficiency and broad applicability for LR plate systems with complex attachments. Furthermore, when the damping of resonators is taken into account, the merging of the multiple bandgaps can be observed using the EPWE method adopted in this paper, which gives a useful tool to analyze the band structures of an LR plate with merged bandgaps for broadband vibration suppression.

Topics & Concepts

ResonatorVibrationBroadbandFinite element methodBand gapPhysicsPlane wave expansion methodLattice (music)Materials scienceMathematical analysisOpticsAcousticsMathematicsOptoelectronicsThermodynamicsAcoustic Wave Phenomena ResearchRailway Engineering and DynamicsVibration Control and Rheological Fluids
An improved method for bandgap calculation of a locally resonant plate with multi-periodic of multiple degree-of-freedom resonators | Litcius