2T domain-engineered piezoelectric single crystals Calculations and application to PZN-12%PT poled along [101]
Résumé
This work is devoted to a study of the [101] domain-engineered PZN-12%PT single crystals. The full electromechanical tensor of PZN-12%PT in its tetragonal single domain state 1T is determined by the resonance method and used as input data. Observations of the domain structure of the [101]-poled 2T crystals by polarized light microscopy reveal a laminar structure consisting of thin layers stacked along the macroscopic polarization direction. We give analytical expressions for effective constants of this laminate multidomain pattern, taking into account the clamping effect resulting from domain coexistence. The calculated effective properties are found in good agreement with the experiments within experimental uncertainties. It is found that domain coexistence affects primarily the transverse dielectric constants ε11 and ε22. This effect is related to the emergence of internal shear stresses and depolarizing electric fields that are most significantly driven by the shear piezoelectric constant d15 and dielectric anisotropy ε11T - ε33T of the single domain state. © 2008 American Institute of Physics.
Mots clés
Crystal structure
Crystallography
Crystals
Electric fields
Phototransistors
Piezoelectricity
Powders
Stereochemistry
Analytical expressions
Clamping effects
Dielectric anisotropies
Dielectric constants
Domain structures
Effective constants
Effective properties
Experimental uncertainties
Input datum
Laminar structures
Macroscopic polarizations
Multi-domain
Piezoelectric constants
Piezoelectric single crystals
Polarized light microscopies
Resonance methods
Single domains
Thin layers
Single crystals