Microstructure modifications and modulated piezoelectric responses in PLZT/Al2O3 composites

Piezoelectric ceramics for acoustic applications have been prepared by mixing the piezoelectric phase Pb_1−1.5xLa_x□_x/2(Ti_1−yZr_y)O₃ (PLZT) with variable fractions of Al₂O₃. The samples are in form of pellets and polarized at high temperature. After thermal treatment, X-ray diffraction and scanning electron microscopy have been used to determine the phase and morphological modifications. The morphotropic PLZT initial phase disproportionates into modified PLZT and ZrO₂ phases. Using electrical impedance spectroscopy, the resonance frequencies of the composite system have been determined and analyzed. As the Al₂O₃ volume fractions increase, the resonance frequency and the amplitude of the electrical response both decrease. An interpretation of the role of Al₂O₃ additions is proposed in terms of phase and microstructure modifications. Using LRC electrical equivalent circuits, the impedance variations close to the resonance frequency are modeled: the increase of the resistance R (electrical losses) and of the capacitance C are respectively correlated to the change in microstructure and in nature of PLZT initial phase.