Wavelet-based finite element simulation of guided waves containing harmonics

Ambuj Sharma; Sandeep Kumar; Amit Tyagi; Kumar Kaushik Ranjan

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Wavelet-based finite element simulation of guided waves containing harmonics

机译：基于小波的含谐波导波有限元模拟

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This paper presents a promising numerical scheme for simulation of many harmonics in wave propagation. The wavelet-based adaptive technique eliminates the requirement for a very large number of nodes in finite element method for propagation of such waves. This dynamic adaptive grid selection is based on the fact that very few wavelet coefficients are required to represent a short pulse containing higher harmonics. The method is particularly useful where higher harmonics are ignored due to very high computational cost. In this work, B-spline and Daubechies wavelets-based non-standard (NS) multi-scale operator are applied, and the results are compared with the finite element method.

机译：本文提出了一种有前途的数值方案，用于仿真波传播中的许多谐波。基于小波的自适应技术消除了在有限元方法中传播此类波的大量节点的需求。这种动态自适应网格的选择基于以下事实：只需很少的小波系数即可表示包含较高谐波的短脉冲。该方法在由于很高的计算成本而忽略高次谐波的情况下特别有用。在这项工作中，应用了B样条和基于Daubechies小波的非标准（NS）多尺度算子，并将结果与有限元方法进行了比较。

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《International journal of materials and structural integrity》 |2019年第3期|54-66|共13页
作者
Ambuj Sharma; Sandeep Kumar; Amit Tyagi; Kumar Kaushik Ranjan;
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作者单位

Mechanical Engineering Department Indian Institute of Technology (BHU) Varanasi India;

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正文语种 eng
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关键词
non-standard wavelet operator; finite element method; higher harmonics; lamb wave; structural health monitoring;

机译：非标准小波算子;有限元法高次谐波;羊肉波结构健康监测;
入库时间 2022-08-18 04:55:18

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1. Simulation of piezoelectric excitation of guided waves using waveguide finite elements [J] . Loveday P. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2008,第9期

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2. Time-Domain Spectral Finite Element Method for Modeling Second Harmonic Generation of Guided Waves Induced by Material, Geometric and Contact Nonlinearities in Beams [J] . He Shuai, Ng Ching-Tai, Yeung Carman International journal of structural stability and dynamics . 2020,第10期

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3. Calculation of guided wave interaction with nonlinearities and generation of harmonics in composite structures through a wave finite element method [J] . Chronopoulos D. Composite Structures . 2018,第FEBa期

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4. Time domain simulation of piezoelectric excitation of guided waves in rails using waveguide finite elements [C] . Philip W. Loveday, Craig S. Long Conference on Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems . 2007

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5. Finite Element Modelling and Simulation of Guided Wave Propagation in Steel Structural Members [D] . Wang, Tianwei. 2014

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6. Simulations of time harmonic blood flow in the Mesenteric artery: comparing finite element and lattice Boltzmann methods [O] . Lilit Axner, Alfons G Hoekstra, Adam Jeays, 2009

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7. Wavelet-based finite element simulation of guided waves containing harmonics [O] . Amit Tyagi, Kumar Kaushik Ranjan, Ambuj Sharma, 2019

机译：基于小波的有限元模拟谐波的引导波

Wavelet-based finite element simulation of guided waves containing harmonics

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