Engineering Transactions,
65, 1, pp. 97–103, 2017
10.24423/engtrans.697.2017
Optimal Parameters of a Dynamically Loaded Patch/Layer Structure Against the Elastic-Brittle Interface Debonding
Jordanka IVANOVA
European Polytechnical University
Bulgaria
Tatyana PETROVA
Bulgarian Academy of Sciences,
Bulgaria
Elisaveta KIRILOVA
Bulgarian Academy of Sciences
Bulgaria
Wilfried BECKER
Technical University of Darmstadt
Germany
A one-dimensional shear-lag model was developed to study the high frequency, dynamic, time-harmonic mechanical behavior of the overlap zone of a piezoelastic patch attached to an elastic host layer and subjected to electric, temperature and moisture excitation. It was interesting to see that the change of the geometry of the overlap zone leads to different solutions after some frequency, which is responsible for different dynamic behavior of the considered structure. Furthermore, the model was involved in an optimization framework (genetic algorithm-GA) in order to find the optimal values of the model parameters of the patch/layer configuration.
Keywords:
PZT-4/graphite-epoxy; shear lag mode; genetic algorithm
Copyright © Polish Academy of Sciences & Institute of Fundamental Technological Research (IPPT PAN).
References
Volkersen O., The rivet force distribution in tensile stressed rivet joints with constant flap cross sections [in German: Die Nietkraft Verteilung in zugbeanspruchten Nietverbindungen mit konstanten Laschenquerschnitten], Luftfahrtforschung, 15: 41–47, 1938.
Cox L.H., The elasticity and strength of paper and other fibrous materials, British Journal of Applied Physics, 3(3): 72–79, 1952.
Ivanova J., Valeva V., Petrova T., Becker W., Interfacial debonding of a piezoelastic bi-material structure applicable for wind rotor blades, Mechanics of Advanced Materials and Structures, 22(10): 813–818, 2015, doi: 10.1080/15376494.2013.864433.
Shopova E.G., Vaklieva-Bancheva N.G., BASIC – A genetic algorithm for engineering problem solution, Computers & Chemical Engineering, 30(8): 1293–1309, 2006, doi: 10.1016/j.compchemeng.2006.03.003.
DOI:
10.24423/engtrans.697.2017