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AuthorGhachi, Ratiba F.
AuthorMohamed, Ahmed S.
AuthorRenno, Jamil
AuthorAlnahhal, Wael
Available date2022-08-11T15:49:00Z
Publication Date2022-07-08
URIhttp://hdl.handle.net/10576/33019
AbstractIn this paper, we present an approach that combines finite element analysis and genetic algorithms to find the optimal configuration of local resonators created in the host structure to suppress their vibration in a target low-frequency range. Such local resonators are indeed metastructures that alter the wave propagation in the host structure, thereby attenuating its vibration. To demonstrate the approach, we cutout zigzag resonators in a thin aluminium plate to attenuate its vibration. The thin plate and the zigzag cutouts are modeled using the finite element method, and the optimal location and tip mass of the zigzag cutouts are obtained using genetic algorithms through iterative simulations. Two case studies are considered, and the fitness function used in the optimization problem is the plate’s root mean square of vibration in a specific low-frequency range. In the first case, the plate has two aligned zigzag cutouts. In this case, the objective is to find the optimal linear location and tip masses of the two zigzag cutouts. In the second case, the plate also has two zigzag cutouts, but their linear and transverse locations can vary along with the respective tip masses. The two optimal specimens are manufactured and tested experimentally. The results obtained demonstrate that the proposed approach is reliable and can be used to tune the band gap of plates, thereby maximizing the vibration attenuation in the target frequency range. All the code used in this paper will be openly available at Qatar University Institutional Repository.
SponsorQatar National Research Fund (a member of Qatar Foundation) provided financial support for this research via the National Priorities Research Program, project number NPRP-8-1568-2-666. The statements made herein are solely the authors’ responsibility, and they are not of the QNRF or Qatar University.
Languageen
Relationhttp://hdl.handle.net/10576/33436
Subject2D metastructure
finite element simulation
genetic algorithm
MATLAB code
ANSYS APDL
vibration attenuation
TitleApplication of Metastructures for Targeted Low-Frequency Vibration Suppression in Plates
TypeDataset
dc.accessType Open Access


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