IntroductionMultilayer actuators (M

Introduction
Multilayer actuators (MLAs) become increasingly importantin high precision mechatronic systems [1,2]. Currently most MLAs adopt expensive AgPd alloys as internal electrodes due to their thermal stability between piezoelectric ceramic layers throughout high temperature firing process. Provided that low temperature co-firing of piezoceramic/metal multilayer laminates is established without significant degradation in piezoelectric properties, a cheaper conductor such as silver or low Pd concentration alloy can be used as an inner electrode material for low cost MLAs [3,4].Recently lead-free piezoelectric ceramics are extensively explored to expel environmentally harmful PZT-based ceramics that have been predominantly used as piezoelectric sensors and actuators last five decades. Among various candidates, Bi-based ceramics now attract great attention because of their giant field-induced strains of 400–614 pm/V[5–8]. However, Bi-based systems require a high sintering temperature (Ts) over 1150 8C for sufficient densification. On the other hand CuO was known as a good sintering aid for lowering Ts in case of PZT-based ceramics [9] and KNN ceramics [10,11] while its effect on the sintering behavior of Bibased ceramics has been little reported so far. Therefore this study investigates the sintering behavior and strain properties of Bi0.5(Na0.82K0.18)0.5TiO3 (BNKT) ceramics co-doped with CuO and Nb2O5. In this work, the Na/K ratio was chosen as 82/18 because Sasaki et al. [12] reported that the piezoelectric properties reach highest when x = 0.16–0.20 in(1 - x)(Bi0.5Na0.5)TiO3–x(Bi0.5K0.5)TiO3 ceramics.