Dynamic dielectric properties of the ferroelectric ceramic Pb(Zr_(0.95)Ti_(0.05))O_3 in shock compression under high electrical fields

摘要

Shock-induced depolarization of the ferroelectrics could generate a depoling current, which has been utilized widely in the energy conversion devices, such as explosive-driven ferroelectric generators and high pulsed power sources. Among all these ferroelectrics, the lead zirconate/titanate ferroelectric ceramic received most of the attention due to their high energy density and low depolarization pressure, especially Pb(Zr0.95Ti0.05)O-3 (PZT 95/5). The dynamic permittivity of PZT 95/5 under the shock compression is critical for their applications, which determines the efficiency of the energy conversion. However, to reveal the dynamic permittivity of the ferroelectrics is challenging, the depolarization process during the shock compression is not only short ('slis) but also coupled with a high electrical field. In this study, the dynamic permittivity of the PZT 95/5 ceramic in shock compression under high electrical fields has been investigated by using a designed oscillation circuit. The experimental results show that the relative permittivity of PZT 95/5 is about 500 at the initial shock compression, and it is only about 220 after shock transit. This decrease would be explained by the PZT 95/5 phase transition under high pressure. In addition, it is found that the permittivity of poled PZT 95/5 is more sensitive to the electrical field than depoled PZT 95/5, and the damping resistances of poled PZT 95/5 could also be influenced by electric fields. Published by AIP Publishing.