Correlation between temperature-dependent permittivity dispersion and depolarization behaviours in Zr4+-modified BiFeO3-BaTiO3 piezoelectric ceramics

The correlation between permittivity frequency dispersion and depoling process upon heating was investigated in Zr4+-modified 0.75BiFeO(3)-0.25BaTiO(3) (BF-BZT) ceramics. The temperature-dependent permittivity epsilon (r)(T) and the piezoelectric coefficient d (33) for poled samples were measured under heating conditions to clarify the depolarization mechanism. The results indicate that the poling temperature plays a crucial role in the domains' alignment process, as expected. The temperature-dependent permittivity frequency dispersion and depolarization behaviours may have same origin. The aligned domains' break up into random state/nanodomains at depoling temperature (T (d)), which causes strong frequency dependence of the permittivity, simultaneously, induces the loss of piezoelectricity. It suggests that the temperature-dependent permittivity measurements method is a simple way to determine the depolarization temperature.