A phenomenological multi-axial constitutive law for switching in polycrystalline ferroelectric ceramics

Unidimensional model of polarisation changes in piezoelectric ceramics based on the principle of maximum entropy production ⋮ Micromechanical model of a polycrystalline ferroelectrelastic material with consideration of defects ⋮ Existence results for a nonlinear evolution equation containing a composition of two monotone operators ⋮ Modeling of ferroelectric hysteresis as variational inequality ⋮ Micromechanical modeling and experimental characterization of 1-3 piezocomposites subjected to electromechanical loads ⋮ A finite element formulation for piezoelectric shell structures considering geometrical and material non-linearities ⋮ Variational-based modeling of micro-electro-elasticity with electric field-driven and stress-driven domain evolutions ⋮ Domain engineered relaxor ferroelectric single crystals ⋮ Return mapping algorithms and consistent tangent operators in ferroelectroelasticity ⋮ Phase-field modeling of fracture in ferroelectric materials ⋮ Thermodynamical analysis of hysteresis in rigid ferroelectric bodies ZAMP-D-21-00505R1 ⋮ Measure-valued solutions for models of ferroelectric materials ⋮ Energy principle of ferroelectric ceramics and single domain mechanical model ⋮ A ferroelectric and ferroelastic 3D hexahedral curvilinear finite element ⋮ Algorithmic two-scale transition for magneto-electro-mechanically coupled problems, FE \({}^2\)-scheme: localization and homogenization ⋮ Three-dimensional nonlocal models of deformable ferroelectrics: a thermodynamically consistent approach ⋮ A phenomenological constitutive theory for polycrystalline ferroelectric ceramics based on orientation distribution functions ⋮ A thermodynamic consistent model for an assumed transversely isotropic piezoceramic with nonlinear ferroelectric hysteresis ⋮ The polarization process of ferroelectric materials in the framework of variational inequalities ⋮ Micromechanical modelling of switching phenomena in polycrystalline piezoceramics: application of a polygonal finite element approach ⋮ An energy-based model for ferroelectric ceramics ⋮ A constitutive model for magnetostrictive and piezoelectric materials ⋮ Study on electroelastic field concentration around the electrode tip in multilayer ferroelectric actuators of two designs and their optimizations ⋮ A thermodynamically consistent mesoscopic model for transversely isotropic ferroelectric ceramics in a coordinate-invariant setting ⋮ Computational homogenization in dissipative electro-mechanics of functional materials ⋮ A rate-dependent incremental variational formulation of ferroelectricity ⋮ Theory of uniformity applied to elastic dielectric materials and piezoelectricity ⋮ Nonlinear constitutive behavior of ferroelectric materials ⋮ Energy principle and nonlinear electric-mechanical behavior of ferroelectric ceramics ⋮ A geometrically and materially non-linear piezoelectric three-dimensional-beam finite element formulation including warping effects ⋮ Energy functions and basic equations for ferroelectrics ⋮ A rate-dependent two-dimensional free energy model for ferroelectric single crystals ⋮ Micromechanics of residual stress and texture development due to poling in polycrystalline ferroelectric ceramics ⋮ A study of electromechanical switching in ferroelectric single crystals ⋮ Three-dimensional finite element simulations of ferroelectric polycrystals under electrical and mechanical loading ⋮ Multi-grain analysis versus self-consistent estimates of ferroelectric polycrystals ⋮ Nonlinear electromechanical coupling in ferroelectric materials: large deformation and hysteresis ⋮ An evaluation of a class of phenomenological theories of ferroelectricity in polycrystalline ceramics ⋮ A thermodynamic consistent 1D model for ferroelastic and ferroelectric hysteresis effects in piezoceramics ⋮ A hybrid phenomenological model for ferroelectroelastic ceramics. I: Single phased materials ⋮ Variational principles in dissipative electro-magneto-mechanics: A framework for the macro-modeling of functional materials

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• Thermodynamical formulation for coupled electromechanical hysteresis effects. III: Parameter identification
• Thermodynamical formulation for coupled electromechanical hysteresis effects. IV: Combined electromechanical loading
• Thermodynamical formulation for coupled electromechanical hysteresis effects. I: Basic equations
• Thermodynamical formulation for coupled electromechanical hysteresis effects. II: Poling of ceramics
• Three dimensional dynamic electromechanical constitutive relations for ferroelectric materials
• One dimensional dynamic electromechanical constitutive relations of ferroelectric materials
• Phenomenological modeling of the nonlinear electromechanical coupling in ferroelectrics
• Finite element analysis of piezoceramic components taking into account ferroelectric hysteresis behavior
• A constitutive model for ferroelectric polycrystals
• Hysteresis Behavior and Modeling of Piezoceramic Actuators
• A new finite-element formulation for electromechanical boundary value problems
• Multi-axial electrical switching of a ferroelectric: Theory versus experiment
• Ferroelectric and ferroelastic piezoceramics -- modeling of electromechanical hysteresis phenomena.
• Fully coupled, multi-axial, symmetric constitutive laws for polycrystalline ferroelectric ceramics