Active tunability of band gaps for a novel elastic metamaterial plate
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Publication:828212
DOI10.1007/S00707-020-02728-1zbMath1451.74154OpenAlexW3040891902MaRDI QIDQ828212
Tao Ren, Chun-Chuan Liu, Chuan-Zeng Zhang, Feng-Ming Li
Publication date: 8 January 2021
Published in: Acta Mechanica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00707-020-02728-1
Vibrations in dynamical problems in solid mechanics (74H45) Plates (74K20) Electromagnetic effects in solid mechanics (74F15) Spectral and related methods applied to problems in solid mechanics (74S25)
Related Items (6)
Attenuation of Rayleigh waves by a nonlinear metamaterial with serial-connected resonators ⋮ Active control of wave propagation in nonlinear planar networks using piezoelectric actuation ⋮ Wave attenuation of a multi-span continuous beam with variable cross sections ⋮ In-plane vibration characteristics of metamaterial plates with locally resonant microstructures ⋮ A new circular-maze-shaped phononic crystal with multiband and broadband vibration filtration feature: design and experiment ⋮ Ultrawide bandgap in metamaterials via coupling of locally resonant and Bragg bandgaps
Cites Work
- Shear wave propagation in periodic phononic/photonic piezoelectric medium
- Modeling of Lamb wave propagation in plate with two-dimensional phononic crystal layer coated on uniform substrate using plane-wave-expansion method
- Higher order interfacial effects for elastic waves in one dimensional phononic crystals via the Lagrange-Hamilton's principle
- Band gaps of elastic waves in three-dimensional piezoelectric phononic crystals with initial stress
- Vibration band gap properties of periodic Mindlin plate structure using the spectral element method
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