Quasi-one-dimensional phononic crystals studied using the improved lumped-mass method: Application to locally resonant beams with flexural wave band gap

Gang Wang; Jihong Wen; Xisen Wen

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Quasi-one-dimensional phononic crystals studied using the improved lumped-mass method: Application to locally resonant beams with flexural wave band gap

机译：使用改进的集总质量方法研究准一维声子晶体：在具有挠曲带隙的局部共振梁中的应用

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By replacing the rectangle cells with arbitrary triangle ones, an improved lumped-mass method is introduced to study the propagation of flexural elastic waves in the infinite quasi-one-dimensional beams with locally resonant structures. Low frequency band gap is predicted and studied. The transmission frequency response function of a finite sample composed of duralumin beam and oscillators is calculated with the finite element method. Vibration experiments are conducted to verify the theoretical results, and all the results match well. The existence of locally resonant band gaps in the flexural waves of beams provides a way for the design of low-frequency vibration insulations.

机译：通过用任意三角形单元代替矩形单元，引入了一种改进的集总质量方法来研究挠曲弹性波在具有局部共振结构的无限准一维梁中的传播。对低频带隙进行了预测和研究。用有限元方法计算了由硬铝梁和振荡器组成的有限样本的传输频率响应函数。进行振动实验以验证理论结果，并且所有结果都匹配良好。梁的弯曲波中局部共振带隙的存在为低频隔振设计提供了一种途径。

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来源
《Physical review. B, Condensed Matter And Materals Physics》 |2005年第10期|p.104302.1-104302.5|共5页
作者
Gang Wang; Jihong Wen; Xisen Wen;
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作者单位

Institute of Mechatronical Engineering, National University of Defense Technology, Changsha 410073, China;

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正文语种 eng
中图分类固体物理学;
关键词
structural acoustics and vibration; mechanical wave propagation (including diffraction, scattering, and dispersion); phonons in crystal lattices;

机译：结构声学和振动;机械波传播（包括衍射;散射和色散）;晶格中的声子;

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Quasi-one-dimensional phononic crystals studied using the improved lumped-mass method: Application to locally resonant beams with flexural wave band gap

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