Relaxor behavior and superior ferroelectricity of Y2O3-doped (Ba0.98Ca0.02) (Ti0.94Sn0.04Zr0.02)O3 lead-free ceramics

To upgrade the electric properties of lead-free piezoceramics, (1-x)(Ba0.98Ca0.02Ti0.94Sn0.04Zr0.02)O(3)xY(2)O(3) (abbreviated as (1-x)BCTSZ-xY, x = 0 mol%, 0.02 mol%, 0.04 mol%, 0.06 mol%, 0.08 mol% and 0.1 mol%) ceramics were successfully synthesized by traditional solid-state sintering method. The phase structure and microstructure of ceramics were investigated by X-ray diffraction (XRD), scanning electron microscopy (SEM) and piezoresponse force microscopyeramics (PFM). The electric properties of ceramics were researched through piezoelectric, dielectric and ferroelectric test instruments. The results show that all samples have pure perovskite structure and favorable electric properties. The optimal electric properties which especially include superior ferroelectric properties are gained when Y2O3 content is 0.06 mol% (d(33) = 419 pC/N, k(p) = 52%, T-c = 89.5 degrees C, epsilon(r) = 26900, tan delta = 2.86%, P-r = 14.41 mu C/cm(2), E-c = 1.8 kV/cm). Moreover, the temperature-dependent dielectricity of samples shows apparent relaxor behavior under different frequencies. The Curiee-Weiss law further proves that all samples are typical relaxor ferroelectrics, and the relaxor degree of samples decreases with increase of Y2O3 content. In conclusion, Y2O3 plays a significant role in enhancing electric properties of BCTSZ ceramics. (c) 2021 Chinese Society of Rare Earths. Published by Elsevier B.V. All rights reserved.

Automated summary

A series of (Ba0.98Ca0.02Ti0.94Sn0.04Zr0.02)O(3) ceramics were successfully synthesized by solid-state sintering method, and their phase structure and electric properties were investigated. The results showed that the addition of Y2O3 significantly enhanced the electric properties of the ceramics.