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Bandgap tuning and in-plane wave propagation of chiral and anti-chiral hybrid metamaterials with assembled six oscillators

Author

Listed:
  • Li, Xiao-feng
  • Cheng, Shu-liang
  • Yang, Hong-yun
  • Yan, Qun
  • Wang, Bin
  • Sun, Yong-tao
  • Ding, Qian
  • Yan, Hao
  • Han, Hong-ge
  • Zhao, Qing-xin
  • Xin, Ya-jun

Abstract

In this paper, a hybrid acoustic metamaterial consisting of chiral and anti-chiral ligaments is proposed. The bandgap properties of the hybrid chiral and anti-chiral structure with and without oscillator intercalation are calculated using Bloch’s theorem and the finite element method, and the structure is verified and evaluated to have good vibration attenuation performance by means of transfer functions and stress clouds. By adjusting the resonant oscillator configuration and applying active strain, the structure is verified to have tunable capability, which provides a simple and easy scheme for bandgap tunability analysis. Finally, a comprehensive analysis of the structural vibration mode, phase constant plane, group velocity, phase velocity and wave propagation direction diagram lead to the conclusion that the directional and regional nature of wave propagation is responsible for the bandgap opening. The new structure in this paper provides a new way of thinking for vibration and noise reduction, and also provides a practical solution for bandgap adjustment. The comprehensive analysis of wave propagation also presents theoretical and technical support for the subsequent structure and bandgap optimization.

Suggested Citation

  • Li, Xiao-feng & Cheng, Shu-liang & Yang, Hong-yun & Yan, Qun & Wang, Bin & Sun, Yong-tao & Ding, Qian & Yan, Hao & Han, Hong-ge & Zhao, Qing-xin & Xin, Ya-jun, 2023. "Bandgap tuning and in-plane wave propagation of chiral and anti-chiral hybrid metamaterials with assembled six oscillators," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 615(C).
  • Handle: RePEc:eee:phsmap:v:615:y:2023:i:c:s0378437123001553
    DOI: 10.1016/j.physa.2023.128600
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