Effects of Bismuth Deficiency on Piezoelectric Properties of (Bi_0.5-xNa_0.5TiO₃)_0.94(BaTiO₃)_0.06 Ceramics

Abstract

High-density ceramics with compositions of (Bi_0.5-xNa_0.5TiO₃)_0.94(BaTiO₃)_0.06 (BNBT-6), where x=0−0.03, were fabricated to develop potentially useful lead-free piezoelectric materials with high mechanical quality factors, Q_m. Effects of Bi-deficiency on the physical properties of the fabricated ceramics were investigated. Microstructures of the samples with a Bi-deficiency of x≥0.015 showed no appreciable grain boundaries. This is due to the liquid-phase sintering that occurs for a Bi-deficiency concentration of x≥0.015. The mechanical quality factors for the radial vibration mode and the thickness vibration mode exhibited a maxima at x=0.022 and 0.024 with values of 674 and 128, respectively. The temperature coefficients of resonant and antiresonant frequencies (TCF) of the BNBT-6 samples with x=0.019−0.030 were almost constant with TCF_fr1=−400 ppm/°C for the fundamental resonant frequency and TCF_fa1=−320 ppm/°C for the fundamental antiresonant frequency, respectively. This method of creating a deficiency of a very small quantity of Bi in the BNBT-6 composition produces substantial improvement in Q_m characteristics without deterioration of other piezoelectric parameters.