Theoretical and experimental investigations of flexural wave propagation in periodic grid structures designed with the idea of phononic crystals  被引量:7

Theoretical and experimental investigations of flexural wave propagation in periodic grid structures designed with the idea of phononic crystals

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作  者:温激鸿 郁殿龙 刘竞文 肖勇 温熙森 

机构地区:[1]Institute of Mechatronical Engineering,National University of Defense Technology [2]Key Lab of Photonic and Phononic Crystals (MOE)

出  处:《Chinese Physics B》2009年第6期2404-2411,共8页中国物理B(英文版)

基  金:Project supported by the National Natural Science Foundation of China (Grant No 50875255)

摘  要:The propagation characteristics of flexural waves in periodic grid structures designed with the idea of phononic crystals are investigated by combining the Bloch theorem with the finite element method. This combined analysis yields phase constant surfaces, which predict the location and the extension of band gaps, as well as the directions and the regions of wave propagation at assigned frequencies. The predictions are validated by computation and experimental analysis of the harmonic responses of a finite structure with 11 × 11 unit cells. The flexural wave is localized at the point of excitation in band gaps, while the directional behaviour occurs at particular frequencies in pass bands. These studies provide guidelines to designing periodic structures for vibration attenuation.The propagation characteristics of flexural waves in periodic grid structures designed with the idea of phononic crystals are investigated by combining the Bloch theorem with the finite element method. This combined analysis yields phase constant surfaces, which predict the location and the extension of band gaps, as well as the directions and the regions of wave propagation at assigned frequencies. The predictions are validated by computation and experimental analysis of the harmonic responses of a finite structure with 11 × 11 unit cells. The flexural wave is localized at the point of excitation in band gaps, while the directional behaviour occurs at particular frequencies in pass bands. These studies provide guidelines to designing periodic structures for vibration attenuation.

关 键 词:phononic crystal phase constant surface grid structure 

分 类 号:O735[理学—晶体学]

 

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