| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5019936 | Theoretical and Applied Mechanics Letters | 2016 | 6 Pages |
â¢Domain switching is simulated in multilayer ferroelectric actuators.â¢Electromechanical behaviors ahead of the crack tip are numerically simulated.â¢The size of switching zone reaches the scale of crack length.
Micromechanical finite element methods are developed based on a nonlinear constitutive model of ferroelectric polycrystals. Electromechanical behaviors ahead of an internal electrode tip are numerically simulated in multilayer ferroelectric actuators. Around the electrode edge, the nonuniform electric field generates a concentration of stress due to the incompatible strain as well as spontaneous strain. The preferred domain switching enhances the concentration of residual stress and may cause the actuators to crack. An electrically permeable crack emanating from an internal electrode is analyzed. A large scale domain switching zone is found in the vicinity of crack tips. The larger the actuating strain and electric field are, the larger the switching zone will be. The size of switching zone even reaches the scale of crack length with increasing electromechanical loading.
