@article{Rodríguez_Bravo Castillero_Brenner_Guinovart Sanjuán_Guinovart Díaz_Rodríguez Ramos_2014, title={Computation of effective properties in two-phase piezocomposites with a rectangular periodic array}, volume={8}, url={https://revistas.udistrital.edu.co/index.php/visele/article/view/7858}, DOI={10.14483/22484728.7858}, abstractNote={<p>Based on the Asymptotic Homogenization Method, the electromechanical global behavior of a two-phase piezoelectric unidirectional periodic fibrous composite is investigated. The composite is made of homogeneous and linear transversely isotropic piezoelectric materials that belong to the symmetry crystal class 622. The cross-sections of the fibers are circular and are centered in a periodic array of rectangular cells. The composite state is anti-plane shear piezoelectric. Local problems that arise from the two-scale analysis using the Asymptotic Homogenization Method are solved by means of a complex variable, leading to an infinite system of algebraic linear equations. This infinite system is solved here using different truncation orders, allowing a numerical study of the effective properties. Some numerical examples are shown.</p>}, number={1}, journal={Visión electrónica}, author={Rodríguez, Ransés Alfonso and Bravo Castillero, Julián and Brenner, Renald and Guinovart Sanjuán, David and Guinovart Díaz, Raúl and Rodríguez Ramos, Reinaldo}, year={2014}, month={jun.}, pages={29–39} }