A 3D coupled-inertial ultra-lightweight elastic metastructure exhibits omnidirectional, wide and low-frequency bandgaps
ID:106 View Protection:ATTENDEE Updated Time:2021-08-19 16:23:10 Hits:397 Oral Presentation

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Abstract
In this letter, we present the design, fabrication, experimental investigation of the low frequency and wide band omnidirectional bandgap (BG) in a 3D coupled-inertial ultra-lightweight elastic metastructure which is made of a single material. The BG of 601-1504 Hz has been achieved, yet the filling ratio is only 22.4% in the unit cell. The coupled-inertial mechanism of the rotational and translational enables the capability that the tunable design of the BG can be realized under the limitation of quasi-constant stiffness and iso-density by rationally regulating the geometric parameters of the mass element (ME) to amplify the equivalent inertial. Interestingly, the relative width can be widened to 7% and the lower boundary of the BG can go down by 9.8% simultaneously by reducing the MEs’ thickness. The design enriches the strategy for tuning the BG with the condition of quasi-constant stiffness and iso-density, as well as strict weight limitation.
 
Keywords
Mechanical Metamaterials and Metastructures,Elastic Bandgap,3D periodicity,Coupling Inertial of Translation and Rotation,Vibration Attenuation
Speaker
Wei Ding
student Xi'an Jiaotong University

Submission Author
Wei Ding Xi'an Jiaotong University
Tianning Chen Xi’an Jiaotong University
Jian Zhu Xi’an Jiaotong University
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    2022

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    Nov 03

    2022

  • Oct 30 2022

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  • Nov 09 2022

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