A localized meshless collocation method for bandgap calculation of anti-plane waves in 2D solid phononic crystals

Zhuo-Jia Fu; Ai-Lun Li; Chuanzeng Zhang; Chia-Ming Fan; Xiao-Ying Zhuang

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A localized meshless collocation method for bandgap calculation of anti-plane waves in 2D solid phononic crystals

机译：用于2D固体声子晶体中的抗平面波带隙计算的局部无网束搭配方法

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In this paper, a localized meshless collocation method, the generalized finite difference method (GFDM), is first applied to calculate the bandgaps of anti-plane transverse elastic waves in 2D solid phononic crystals with square and triangular lattice. The corresponding theoretical consistency analysis of the GFDM is given. The universal algorithm for the uniform/scattered node generation in the GFDM is presented. In comparison with the traditional plane wave expansion (PWE) method and Pressure Acoustics Module in COMSOL software, the proposed GFDM can provide the similar accurate results with less computational times for calculating the band structures of the simple/complicated shape scatterers in the square/triangular lattice. Three influence factors (Filling fractions (Ff), rotation angles (Ra) and arm widths (Aw) in the unit-cell) of the bandgap properties in 2D phononic crystals are numerically discussed.

机译：在本文中，首先应用局部无网格搭配方法，广义有限差分方法（GFDM），以计算具有正方形和三角形晶格的2D固体声子晶体中的抗平面横向弹性波的带盖。给出了GFDM的相应理论一致性分析。呈现了GFDM中均匀/散射节点生成的通用算法。与COMSOL软件中的传统平面波膨胀（PWE）方法和压力声学模块相比，所提出的GFDM可以提供类似的准确结果，并且计算方形/三角形中简单/复杂形状散射脉冲带的频带结构的计算时间较少格子。在数值上讨论了三个影响因素（填充分数（FF），旋转角度（Ra）和旋转角（Ra）和臂宽度（旋转角度（Ra）和臂宽度（在单位单元中的单元电池中的单元）在数值上讨论。

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来源
《Engineering analysis with boundary elements》 |2020年第10期|162-182|共21页
作者
Zhuo-Jia Fu; Ai-Lun Li; Chuanzeng Zhang; Chia-Ming Fan; Xiao-Ying Zhuang;
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作者单位

Key Laboratory of Coastal Disaster and Defence of Ministry of Education Hohai University Nanjing 210098 PR China State Key Laboratory of Mechanics and Control of Mechanical Structures Nanjing University of Aeronautics & Astronautics Nanjing PR China Institute of Continuum Mechanics Leibniz University Hannover Hannover 30167 Germany;

Key Laboratory of Coastal Disaster and Defence of Ministry of Education Hohai University Nanjing 210098 PR China;

Department of Civil Engineering University of Siegen Siegen 57076 Germany;

Department of Harbor and River Engineering National Taiwan Ocean University Keelung 20224 Taiwan;

Institute of Continuum Mechanics Leibniz University Hannover Hannover 30167 Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Generalized finite difference method; Meshless collocation method; Taylor series expansion; Moving least square method; 2D solid phononic crystal; Anti-plane elastic wave;

机译：广义有限差分法;无丝裂缝法;泰勒系列扩张;移动最小二乘法;2D固体旋流晶体;反平面弹性波;
入库时间 2022-08-18 21:12:09

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1. A meshfree local RBF collocation method for anti-plane transverse elastic wave propagation analysis in 2D phononic crystals [J] . Zheng Hui, Zhang Chuanzeng, Wang Yuesheng, Journal of Computational Physics . 2016,第Null期

机译：用于二维声子晶体中反平面横向弹性波传播分析的无网格局部RBF配置方法
2. Bandgap calculation for mixed in-plane waves in 2D phononic crystals based on Dirichlet-to-Neumann map [J] . Ni Zhen, Feng-Lian Li, Yue-Sheng Wang, 力学学报：英文版 . 2012,第004期

机译：基于Dirichlet-to-Neumann映射的二维声子晶体中混合平面波的带隙计算
3. Band structure computation of in-plane elastic waves in 2D phononic crystals by a meshfree local RBF collocation method [J] . Hui Zheng, Chuanzeng Zhang, Yuesheng Wang, Engineering analysis with boundary elements . 2016,第May期

机译：利用无网格局部RBF配置方法计算二维声子晶体中面内弹性波的能带结构
4. MLS MESHLESS METHOD FOR ELASTIC WAVE BAND STRUCTURES CALCULATION OF ONE DIMENSIONAL PHONONIC CRYSTAL [C] . Xiao-jian LIU, You-hua FAN Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA), 2011 Symposium on . 2011

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5. Methodology for analyzing Epoxy-CNT phononic crystals for wave attenuation and guiding [D] . Kolati, Madhu. 2016

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A localized meshless collocation method for bandgap calculation of anti-plane waves in 2D solid phononic crystals

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