Sintering and Piezoelectric Properties of Potassium Sodium Niobate Ceramics with Newly Developed Sintering Aid

Abstract

As a candidate for lead-free piezoelectric materials, (K0.5Na0.5)NbO3 (KNN)-based ceramics have been successfully synthesized via a solid state reaction. In this study, KNN-based ceramics were sintered under atmospheric pressure by adding the newly developed sintering aid (K5.4Cu1.3Ta10O29, KCT). The effects of KCT addition on the sinterability and electrical properties of the KNN ceramics were examined. The KCT addition to KNN at more than 0.38 mol% was effective to improve the sinterability of the KNN ceramics. The phase transition temperature of the KNN ceramics prepared indicated that part of KCT reacted with the KNN matrix during the sintering process. The εr, kp, Np and Qm values of prepared KNN ceramics strongly depended upon the KCT content. The KCT addition to KNN greatly improved the Qm values (>1000) of the KNN ceramics. The Qm and kp of 0.38 mol% KCT added KNN ceramics were 1200 and 0.42, respectively. In addition, the KNN ceramics with 0.38 mol% KCT showed large field induced strain of 0.09% at 40 kV/cm, and d33 of approximately 190 pm/V under a unipolar field from 30 to 40 kV/cm.