Determination of group velocity of propagation of Lamb waves in aluminium plate using piezoelectric transducers
Files
Date issued
2017
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
University of West Bohemia
Abstract
A prior knowledge of group velocities of Lamb wave modes is a key for analysis of time signals in guidedwave
based structural health monitoring. The identification of multiple wave modes may be complicated due to
dependency of group velocity on frequency (dispersion). These dependencies for infinite plate of constant thickness
can be calculated by a numerical solution of analytic equation. Two alternative approaches to determine group
velocities of zero-order Lamb wave modes in aluminum plate were used in this work: Two-dimensional Fast
Fourier Transform (2D-FFT) and methods of time-frequency processing. 2D-FFT requires a high number of time
signals in equidistant points, therefore it was applied on data from finite element analysis of wave propagation in
the plate. Group velocities for chosen frequencies were also determined using wavelet transform (WT) of signals
as differencies of times of arrival measured by a pair of piezoelectric transducers. The results from 2D-FFT and
wavelet transform were compared to the analytic solution.
Description
Subject(s)
Lambovy vlny, piezoelektrické měniče, 2D-FFT, vlnová transformace
Citation
Applied and Computational Mechanics. 2017, vol. 11, no. 1, p. 1-10.