Computational homogenization of flexoelectricity based metamaterials : application to topology optimization for apparently piezoelectric devices
D. Codony, J. Barceló-Mercader, F. Greco, A. Mocci, H. Mohammadi, S. Fernández-Méndez, I. Arias
Computational homogenization and topology optimization of flexoelectricity-based metamaterials for apparent piezoelectricity
Codony D.
Mathematical and computational modeling of flexoelectric materials
Greco F., Codony D., Mohammadi H., Fernández-Méndez S., Arias I.
Topology optimization of flexoelectric metamaterials with apparent piezoelectricity
Codony D.
Mathematical and computational modeling of flexoelectricity at mesoscopic and atomistic scales.
Codony D., Marco O., Barceló-Mercader J., Fernández-Méndez S., Arias I.
Unfitted B-spline-based computational approach for non-local continuum mechanics. Application to hard and soft flexoelectric materials and composites.
Leganés, Spain (2018). Society of Engineering Science
Codony D., Marco O., Fernández-Méndez S., Arias I.
An immersed boundary hierarchical b-spline-based computational approach for nano-scale electromechanics.
Codony D., Marco O., Fernández-Méndez S., Arias I.
Immersed Boundary Hierarchical B-spline method for the Numerical Simulation of Nano-Scale Electromechanical Transduction.
Codony D., Marco O., Fernández-Méndez S., Arias I.
Numerical solution of the flexoelectric coupling based on an immersed boundary B-spline framework.
Codony D., Marco O., Fernández-Méndez S., Arias I.
Numerical solution of strain-gradient elasticity based on an immersed boundary B-spline framework.