Abstract
Electromechanical coupling devices have been playing an indispensable role in modern engineering. Particularly, flexoelectricity, an electromechanical coupling effect that involves strain gradients, has shown promising potential for future miniaturized electromechanical coupling devices. Therefore, simulation of flexoelectricity is necessary and inevitable. In this paper, we provide an overview of numerical procedures on modeling flexoelectricity. Specifically, we summarize a generalized formulation including the electrostatic stress tensor, which can be simplified to retrieve other formulations from the literature. We further show the weak and discretization forms of the boundary value problem for different numerical methods, including isogeometric analysis and mixed FEM. Several benchmark problems are presented to demonstrate the numerical implementation. The source code for the implementation can be utilized to analyze and develop more complex flexoelectric nano-devices.
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous)
Reference78 articles.
1. Long wavelength oscillations of diamond-type crystals including long range forces;Tolpygo;Sov. Phys.-Solid State,1963
2. Piezoelectric effect during inhomogeneous deformation and acoustic scattering of carriers in crystals;Kogan;Sov. Phys.-Solid State,1964
3. Flexoelectric strain gradient detection using Ba0.64Sr0.36TiO3 for sensing
4. Study on a flexoelectric microphone using barium strontium titanate
5. Flexoelectric response in soft polyurethane films and their use for large curvature sensing
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