Author:
Gao Weirui,Guo Kai,Sun Jie,Yang Bin
Abstract
Abstract
In this paper, a novel acoustic metamaterial beam attached with lattice structures and resonators is designed for elastic wave attenuation. The proposed acoustic metamaterial beam is fabricated by 3D printing with NiTi alloy. Theoretical analysis using negative effective mass is performed to derive the band gap of structure. The finite element method and experimental analysis are performed to investigate the dispersion relation and transmission spectrum. Furthermore, the effect of geometric features on the band gap is studied by simulations. Results proved that the metamaterial beam can be utilized for the control of low-frequency vibration.
Subject
General Physics and Astronomy
Reference24 articles.
1. A review of acoustic metamaterials and phononic crystals;Liu;CRYSTALS,2020
2. Towards metamaterial rods with amplitude-dependent band gaps: a superelastic alloy-based approach;Yang;MECH SYST SIGNAL PR,2021
3. Mode coupling chatter suppression for robotic machining using semi-active magnetorheological elastomers absorber;Yuan;MECH SYST SIGNAL PR,2018
4. Three-dimensional single-phase elastic metamaterial for low-frequency and broadband vibration mitigation;Jiang;INT J MECH SCI,2020
5. Double-negative acoustic metamaterial;Li;Phys Rev E Stat Nonlin Soft Matter Phys,2004
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