Design optimization of transducer arrays for uniform distribution of guided wave energy in arbitrarily shaped domains
Journal article, 2020
The use of an array of transducers to excite guided Lamb waves, within a plate or any complex structure, usually leads to a variation in the energy on the propagation direction. In this study, an optimization model is proposed to design an array of transducers to provide uniform energy distribution in a domain of an arbitrary shape. The model is based on finding the optimal placements of the transducers and the optimal time delay for excitation by
using a genetic algorithm. The efficiency of the model was tested on an elliptically shaped domain, then on an arbitrarily shaped domain. Both cases showed promising results using various configurations/patterns of transducers. The method was experimentally validated on an aluminium alloy plate for two patterns of transducers including six and eight piezoelectric elements.
using a genetic algorithm. The efficiency of the model was tested on an elliptically shaped domain, then on an arbitrarily shaped domain. Both cases showed promising results using various configurations/patterns of transducers. The method was experimentally validated on an aluminium alloy plate for two patterns of transducers including six and eight piezoelectric elements.
Phased array
Piezoelectric
Guided waves
Optimization
Genetic algorithm
Author
Siavash Shoja
Chalmers, Mechanics and Maritime Sciences (M2), Dynamics
Viktor Berbyuk
Chalmers, Mechanics and Maritime Sciences (M2), Dynamics
Samir Mustapha
American University of Beirut
Ultrasonics
0041-624X (ISSN)
Vol. 103 106079Ice detection for smart de-icing of wind turbines
Swedish Energy Agency (2013-001475), 2013-09-01 -- 2016-12-31.
Subject Categories
Applied Mechanics
Signal Processing
Composite Science and Engineering
Areas of Advance
Energy
DOI
10.1016/j.ultras.2020.106079