Enhanced piezoelectric properties in low-temperature sintering PZN-PZT ceramics by adjusting Zr/Ti ratio
Yaxia Luo, Tao Pu, Shibo Fan, Hong Liu, Jianguo Zhu
Abstract
[Formula: see text][Formula: see text]([Formula: see text]Ti)[Formula: see text]([Formula: see text][Formula: see text]O 3 (PZN–PZT) piezoceramics with various Zr/Ti ratios and Li 2 CO 3 sintering aid were sintered at 900 ∘ C by the solid-state reaction route. The samples with different Zr/Ti ratios were compared according to microstructure, phase structure, piezoelectricity, ferroelectricity, and dielectric relaxation. The Zr/Ti ratio in the PZN–PZT ceramics greatly affects the electrical properties. The Zr/Ti ratio affects the proportion between the rhombohedral and tetragonal phases and also affects the grain size. The PZN–PZT ceramics with the Zr/Ti ratio of 53:47 have the largest grain size and have optimized piezoelectric properties ([Formula: see text] = 0.58, [Formula: see text] = 540 pC/N, and [Formula: see text] = 250 ∘ C). The larger the grain size, the lesser the grain boundary, the easier the domain wall motion, and the better the piezoelectric properties. The PZT ceramic with Zr/Ti ratio of 53:47 locates the morphotropic phase boundary (MPB) region which is one of the key factors for the high piezoelectric properties of the PZT.