Add to ORKGA computational model for investigating domain switching and macroscopic electromechanical properties of ferroelectric materials is developed. Various aspects of domain nucleation and growth, and their effects on macroscopic hysteresis are examined. The model is validated against recent experimental observations. It is thus validated as a design tool to investigate various aspects of a novel thin film ferroelectric microactuator in future work
A new mode of large electrostrictive actuation, based on 90° domain switching in ferroelectric cryst...
A new mode of large electrostrictive actuation, based on 90 ° domain switching in ferroelectric crys...
Polarization switching in a ferroelectric subjected to an electric field or a stress field is simula...
A computational model for investigating domain switching and macroscopic electromechanical propertie...
A model for studying the domain pattern of ferroelectric materials and its evolution is developed. I...
AbstractA new mode of large electrostrictive actuation, based on 90° domain switching in ferroelectr...
The complex arrangement of domains observed in ferroelectric crystals is a consequence of multiple e...
xxvi, 140 leaves : ill. ; 31 cm.PolyU Library Call No.: [THS] LG51 .H577M AP 2007 ChungElectromechan...
Large strain electrostriction in single-crystal ferroelectric materials is investigated. The mode of...
We present a multi-scale modelling framework to predict the effective electromechanical behavior of ...
The intrinsic electromechanical properties and quick response to external excitations make ferroele...
This paper examines the domain patterns and its relation to the macroscopic electromechanical behavi...
A Landau-Ginzburg-Devonshire phenomenological theory was developed and numerically implemented by ex...
AbstractIn this paper a damage model for ferroelectric materials is presented. It is implemented in ...
It is well known that many common ferroelectric materials are also ferroelastic, thus the nonlinear ...
A new mode of large electrostrictive actuation, based on 90° domain switching in ferroelectric cryst...
A new mode of large electrostrictive actuation, based on 90 ° domain switching in ferroelectric crys...
Polarization switching in a ferroelectric subjected to an electric field or a stress field is simula...
A computational model for investigating domain switching and macroscopic electromechanical propertie...
A model for studying the domain pattern of ferroelectric materials and its evolution is developed. I...
AbstractA new mode of large electrostrictive actuation, based on 90° domain switching in ferroelectr...
The complex arrangement of domains observed in ferroelectric crystals is a consequence of multiple e...
xxvi, 140 leaves : ill. ; 31 cm.PolyU Library Call No.: [THS] LG51 .H577M AP 2007 ChungElectromechan...
Large strain electrostriction in single-crystal ferroelectric materials is investigated. The mode of...
We present a multi-scale modelling framework to predict the effective electromechanical behavior of ...
The intrinsic electromechanical properties and quick response to external excitations make ferroele...
This paper examines the domain patterns and its relation to the macroscopic electromechanical behavi...
A Landau-Ginzburg-Devonshire phenomenological theory was developed and numerically implemented by ex...
AbstractIn this paper a damage model for ferroelectric materials is presented. It is implemented in ...
It is well known that many common ferroelectric materials are also ferroelastic, thus the nonlinear ...
A new mode of large electrostrictive actuation, based on 90° domain switching in ferroelectric cryst...
A new mode of large electrostrictive actuation, based on 90 ° domain switching in ferroelectric crys...
Polarization switching in a ferroelectric subjected to an electric field or a stress field is simula...