Evaluation of electromechanical coupling effect by microstructural modeling of domain switching in ferroelectrics
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Publication:366492
DOI10.1016/J.MECHRESCOM.2010.03.003zbMath1272.74170OpenAlexW2074968536MaRDI QIDQ366492
Andreas Ricoeur, Qun Li, Marco Enderlein, Meinhard Kuna
Publication date: 13 September 2013
Published in: Mechanics Research Communications (Search for Journal in Brave)
Full work available at URL: http://www.sciencedirect.com/science/article/pii/S0093641310000406
Finite element methods applied to problems in solid mechanics (74S05) Electromagnetic effects in solid mechanics (74F15)
Related Items (5)
Inhomogeneity and material configurational forces in three-dimensional ferroelectric polycrystals ⋮ Algorithmic two-scale transition for magneto-electro-mechanically coupled problems, FE \({}^2\)-scheme: localization and homogenization ⋮ Nonlinear modeling and finite element simulation of magnetoelectric coupling and residual stress in multiferroic composites ⋮ Computation of non‐linear magneto‐electric product properties of 0–3 composites ⋮ Configurational forces in ferroelectric structures analyzed by a macromechanical switching model
Cites Work
- Three-dimensional finite element simulations of ferroelectric polycrystals under electrical and mechanical loading
- Finite element analyses of cracks in piezoelectric structures: a survey
- A finite element model of ferroelastic polycrystals
- A constitutive model for ferroelectric polycrystals
- Finite element simulation of a polycrystalline ferroelectric based on a multidomain single crystal switching model
- A new finite-element formulation for electromechanical boundary value problems
- Multi-axial electrical switching of a ferroelectric: Theory versus experiment
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