The dielectric, piezoelectric and elastic coefficients, as well as the electromechanical coupling factors, of NaNbO3 submicron-structured ceramics have been obtained by an automatic iterative method from impedance measurements at resonance. Poled thin discs were measured from room temperature up to the depoling one, close to 300 A degrees C. Dielectric thermal behaviour was determined also for unpoled ceramics up to the highest phase transition temperature. Ceramics were processed by hot-pressing from mechanically activated precursors. Microstructural effects on the properties are discussed. The suppression of the classical maximum in dielectric permittivity in unpoled ceramics at the phase transition at 370 A degrees C was found when a bimodal distribution of grain sizes, with a population of average grain size of 110 nm in between much coarser grains, is observed. The appearance of a phase transition at 150 A degrees C took place when Na vacancies are minimised. The occurrence of a non-centrosymmetric, ferroelectric phase, in the unpoled ceramic from room temperature to similar to 300 A degrees C, highly polarisable resulting in high ferro-piezoelectric properties was also observed in the ceramic which presents grain size below 160 nm. Maximum values of k (p) = 14%, d (31) = -8.7 x 10(-12) C N-1 and N (p) = 3772 Hz m at room temperature, and k (p) = 18%, d (31) = -25.4 x 10(-12) C N-1 and N (p) = 3722 Hz m at 295 A degrees C were achieved in the best processing conditions of the ceramics.

• 出版日期2010-3