Effects of CaTiO3 addition on microstructures and electrical properties of Na0.52K0.48NbO3 lead-free piezoelectric ceramics

In this article, various amounts of CaTiO₃ (CT) were added into (Na_0.52K_0.48)NbO₃ (NKN) ceramics using conventional oxide-mixing method for improving NKN's properties. The experimental results show that the (1?x)(Na_0.52K_0.48)NbO₃–xCaTiO₃ (x=0～0.07) solid solution system can be successfully synthesized. Addition of CaTiO₃ not only effectively prevents materials from deliquescence, but also improves the density and the electrical properties of the ceramics. The dielectric constant–temperature (ε_r?T) curves exhibit that the temperatures of the Curie point (T_c) and the phase transition from tetragonal to orthorhombic (T_O?T) are decreasing monotonously as the amount of CT addition is increased. A morphotropic phase boundary (MPB) can be found in the (1?x)NKN?xCT solid solution system as the doping amount of x=0.03, and the 0.97NKN–0.03CT ceramics, with a high bulk density, 98% theoretical density, and an appropriate grain size of about 1～2 μm, present a superior domain switching ability and the optimum properties: d₃₃=117 pC/N, k_p=0.39, P_r=21 μC/cm², and T_c=333 °C.