Electromechanical properties of [001]-textured Mn-PMN-PZT ceramics under hydrostatic pressure

The electromechanical properties of [001]-textured Mn-PMN-PZT ceramics are characterized under a hydrostatic pressure of up to 400 MPa. The dielectric constant of textured ceramics increases first and then decreases as pressure increases. A comparison of the electromechanical constants s(ij), k(ij), and d(ij) (i, j = 1, 3) obtained by the method of direct calculation and admittance fitting is displayed in this work. The results show that the two methods can obtain similar results at lower pressures. When the pressure is relatively high, the loss cannot be ignored, and the results of the two methods are quite different. The admittance fitting method gives a more accurate piezoelectric constant. Under 400 MPa, textured ceramics have k(31) = 0.55, d(31) = 321 pC/N, k(33) = 0.89, and d(33) = 702 pC/N, while random ceramics have k(31) = 0.33, d(31) = 92 pC/N, k(33) = 0.71, and d(33) = 230 pC/N. The large piezoelectric properties of textured ceramics under high pressure make them potential underwater transducers.

Automated summary

This study investigates the electromechanical properties of [001]-textured Mn-PMN-PZT ceramics under high pressure. The dielectric constant of textured ceramics increases first and then decreases as pressure increases. The method of direct calculation and admittance fitting can obtain similar results, but the admittance fitting method provides more accurate results at high pressure.