Composition dependence of electric-field-induced structure of Bi-1/2(Na1-xKx)(1/2)TiO3 lead-free piezoelectric ceramics

摘要

Microscopic origins of the electric-field-induced strain for three compositions of Bi-1/2(Na1-xKx)(1/2)TiO3 (x = 0.14, 0.18, and 0.22) (BNKT100x) ceramics have been compared using in situ high-energy (87.12 keV) X-ray diffraction. In the as-processed state, average crystallographic structure of BNKT14 and BNKT18 were found to be of rhombohedral symmetry, while BNKT22 was tetragonal. Diffraction data collected under electric field showed that both the BNKT14 and BNKT18 exhibit induced lattice strain and non-180 degrees ferroelectric domain switching without any apparent phase transformation. The BNKT22 composition, in addition to the lattice strain and domain switching, showed an electric-field-induced transformation from a tetragonal to mixed tetragonal-rhombohedral state. Despite the difference in the origin of microscopic strain responses in these compositions, the measured macroscopic poling strains of 0.46 (BNKT14), 0.43 (BNKT18), and 0.44 (BNKT22) are similar. In addition, the application of a second poling field of opposite polarity to the first increased the magnitude of non-180 degrees ferroelectric domain texture. This was suggested to be related to the existence of an asymmetric internal bias field. Published by AIP Publishing.