Effect of domain wall characteristics on material properties of lead zirconate titanate piezoelectric ceramics

Abstract

To better understand the material properties of lead zirconate titanate (PZT) ceramics, the influence of domain wall characteristics on the electrical and mechanical properties of PZT ceramics has been investigated. To obtain various domain wall characteristics, the poling process was carried out with different patterns with respect to the PZT ceramic. The domain walls were aligned in the PZT ceramic in the direction perpendicular to the poling direction. Such domain wall characteristic produced different crack growth behaviours. The crack growth occurred mainly along the domain walls of {110} for a₃₁ (crack growth direction perpendicular to the poling direction) because of the high stress concentration between the domain walls. In contrast, the crack propagated along both domain walls and grain boundaries for a₃₃ (crack growth direction parallel to the poling direction), leading to high crack growth resistance and good mechanical properties. The fracture toughness K_IC values for the PZT ceramics in the a₃₁ and a₃₃ directions were about 0·5 and 2·6 MPa m^1/2 respectively. It also appeared that the domain walls collapsed when a number of poling processes are conducted along different directions. These PZT ceramics had high mechanical properties due to the low stress concentrations.

Keywords:

• Piezoelectric ceramic
• Lead zirconate titanate ceramic
• Domain wall
• Electrical property
• Mechanical property

The authors would like to express appreciation to Dr N. Muto, Akita Prefectural University, and Mr I. Higashigaito, TREK Japan K.K., for their technical supports on the manuscript.