Dielectric and piezoelectric properties of modified lead-free NaNbO3-KNbO3/PVDF composite ceramics

This work presents the results of study of the electrophysical properties of composite polymer ceramics (1-x)[KNN-LTSN]-xPVDF at x= 25 vol.% and x= 50 vol.% in the temperature range of T= 20-160 degrees C and frequency range off = 2 x 10(1)-2 x 10(6) Hz. The concentration dependence of piezomodules of the studied materials has been analyzed as a function of temperature. X-ray measurements have also been carried out. A model of description of revealed dielectric parameters dispersion in the material is presented. The nonclassical modified Havriliak-Negami model written for complex electrical conductivity has been used to describe the temperature-frequency properties. It is shown that the dielectric spectra of the studied composites include three relaxation processes in the temperature ranges of 40-80 degrees C, 80-120 degrees C and 120-150 degrees C, which were confirmed by the dynamics of changes in the dependences of gamma;(f), tg delta(f), M'(f) M ''(f)and M ''(M ''). All three processes are almost exactly described by this model and well correlated with the studies by other researchers of the composites based on PVDF. The results of this work show that the use of such experimental model is suitable for describing the complex dielectric spectra of any nonlinear dielectrics including composite materials.

Automated summary

This work presents the results of studying the electrophysical properties of composite polymer ceramics. The concentration dependence of piezomodules and dispersion of dielectric parameters in the material were analyzed, along with the use of a modified Havriliak-Negami model to describe temperature-frequency properties. The study showed that the dielectric spectra of the composites included three relaxation processes in different temperature ranges, all of which were well described by the model.