DocumentCode
1193609
Title
Simulation of Lamb wave propagation for the characterization of complex structures
Author
Agostini, Valentina ; Delsanto, Pier Paolo ; Genesio, Ivan ; Olivero, D.
Author_Institution
INFM-Dip., Politecnico di Torino, Italy
Volume
50
Issue
4
fYear
2003
fDate
4/1/2003 12:00:00 AM
Firstpage
441
Lastpage
448
Abstract
Reliable numerical simulation techniques represent a very valuable tool for analysis. For this purpose we investigated the applicability of the local interaction simulation approach (LISA) to the study of the propagation of Lamb waves in complex structures. The LISA allows very fast and flexible simulations, especially in conjunction with parallel processing, and it is particularly useful for complex (heterogeneous, anisotropic, attenuative, and/or nonlinear) media. We present simulations performed on a glass fiber reinforced plate, initially undamaged and then with a hole passing through its thickness (passing-by hole). In order to give a validation of the method, the results are compared with experimental data. Then we analyze the interaction of Lamb waves with notches, delaminations, and complex structures. In the first case the discontinuity due to a notch generates mode conversion, which may be used to predict the defect shape and size. In the case of a single delamination, the most striking "signature" is a time-shift delay, which may be observed in the temporal evolution of the signal recorded by a receiver. We also present some results obtained on a geometrically complex structure. Due to the inherent discontinuities, a wealth of propagation mechanisms are observed, which can be exploited for the purpose of quantitative nondestructive evaluation (NDE).
Keywords
delamination; flaw detection; glass fibre reinforced composites; surface acoustic waves; ultrasonic materials testing; Lamb wave propagation; complex structure; defect detection; delamination; glass fiber reinforced plate; local interaction simulation approach; mode conversion; nondestructive evaluation; notch discontinuity; numerical simulation; parallel processing; passing-by hole; time-shift delay; Anisotropic magnetoresistance; Data analysis; Frequency; Glass; Nonhomogeneous media; Numerical simulation; Parallel processing; Sea surface; Sensor arrays; Surface waves; Algorithms; Carbon; Computer Simulation; Equipment Failure Analysis; Image Enhancement; Materials Testing; Models, Theoretical; Plastics; Scattering, Radiation; Ultrasonography;
fLanguage
English
Journal_Title
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
Publisher
ieee
ISSN
0885-3010
Type
jour
DOI
10.1109/TUFFC.2003.1197967
Filename
1197967
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