Add to ORKGA new mode of large electrostrictive actuation, based on 90° domain switching in ferroelectric crystals subjected to combined electromechanical loading, has recently been experimentally demonstrated. In this paper, we develop a model for this phenomenon by assuming a reasonable arrangement of domain walls and formulating equations of motion for these walls. The model captures most of the features observed in the experiments, reveals the significant role of friction at the interfaces between the loading frame and the crystal surfaces, and predicts that a reduction of friction will allow larger strains at lower mechanical loads
It is well known that many common ferroelectric materials are also ferroelastic, thus the nonlinear ...
Experimental results showed that the domain-switching in the ferroelectric materials depends on both...
Many physical experiments have shown that the domain switching in a ferroelectric material is a comp...
A new mode of large electrostrictive actuation, based on 90 ° domain switching in ferroelectric crys...
A new mode of large electrostrictive actuation, based on 90° domain switching in ferroelectric cryst...
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...
A model for studying the domain pattern of ferroelectric materials and its evolution is developed. I...
This paper examines the domain patterns and the macroscopic behaviour of single crystals of ferroele...
A computational model for investigating domain switching and macroscopic electromechanical propertie...
An experimental investigation of the electromechanical behavior of single crystals of the ferroelect...
Large strain electrostriction in single-crystal ferroelectric materials is investigated. The mode of...
The nonlinear electromechanical behavior of ferroelectric materials is governed by the motion of dom...
Abstract: Electric switching of non-polar bulk crystals is shown to occur when domain walls are pola...
IWCMMInternational audienceThis paper examines the switching process occuring in ferroelectric and f...
It is well known that many common ferroelectric materials are also ferroelastic, thus the nonlinear ...
Experimental results showed that the domain-switching in the ferroelectric materials depends on both...
Many physical experiments have shown that the domain switching in a ferroelectric material is a comp...
A new mode of large electrostrictive actuation, based on 90 ° domain switching in ferroelectric crys...
A new mode of large electrostrictive actuation, based on 90° domain switching in ferroelectric cryst...
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...
A model for studying the domain pattern of ferroelectric materials and its evolution is developed. I...
This paper examines the domain patterns and the macroscopic behaviour of single crystals of ferroele...
A computational model for investigating domain switching and macroscopic electromechanical propertie...
An experimental investigation of the electromechanical behavior of single crystals of the ferroelect...
Large strain electrostriction in single-crystal ferroelectric materials is investigated. The mode of...
The nonlinear electromechanical behavior of ferroelectric materials is governed by the motion of dom...
Abstract: Electric switching of non-polar bulk crystals is shown to occur when domain walls are pola...
IWCMMInternational audienceThis paper examines the switching process occuring in ferroelectric and f...
It is well known that many common ferroelectric materials are also ferroelastic, thus the nonlinear ...
Experimental results showed that the domain-switching in the ferroelectric materials depends on both...
Many physical experiments have shown that the domain switching in a ferroelectric material is a comp...