Xing-Lin Gao scite author profile

The subwavelength artificial elastic metamaterials can be used for efficient transmission of vibration energies in a tunable frequency range. A local-resonance equal-thickness elastic metamaterial plate is designed in this work. The triangular resonators in the rhombic unit cell are used to exploit the valley degeneracy of the out-of-plane locally resonant modes under hexagonal symmetry conditions. The resonators consist of high-density cores wrapped by soft elastic material, and the differences in the intrinsic frequencies produce a topological band gap caused by the double resonant effect. The reversal of the energy bands proves that the band gap has a non-trivial topology effect, i.e., there exists edge states with robustness and high transmission efficiency. This structure can be utilized in railway transportation as an advanced elastic wave medium material to improve the efficiency of sensing and harvesting the energy of vertical vibrations between vehicles and rails.

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Extending and lowering bandgaps by cross-like beams phononic crystals with perforation

Zhao

Song

Tian

et al. 2021

Appl. Phys. A

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Vibration Attenuation Performance of Isolator Based on Locally Resonant Phononic Crystal Via Train Load

Gao

Chen

Wen

et al. 2023

Preprint

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Xing-Lin Gao

Tunable low-frequency bandgaps of a new two-dimensional multi-component phononic crystal under different pressures, geometric parameters and pre-compression strains

Vibration attenuation performance of isolator based on locally resonant phononic crystal via train load

A local-resonance elastic metamaterial for the transport of wheel-rail vertical vibrations

Extending and lowering bandgaps by cross-like beams phononic crystals with perforation

Vibration Attenuation Performance of Isolator Based on Locally Resonant Phononic Crystal Via Train Load

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