Effect of electrical state on mechanical and electrical response of a ferroelectric ceramic PZT 95/5 to impact loading
- 1 April 1978
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 49 (4) , 2494-2498
- https://doi.org/10.1063/1.325098
Abstract
Ferroelectric ceramic specimens 2–10 mm thick were impact loaded in uniaxial strain to a stress of 1.6 GPa. Material velocity-time wave profiles were measured using a laser interferometer system. Specimen states studied were unpoled, poled and shorted, and poled with a high resistive load (E?2 kV/mm). The results show clearly the effect of the specimen electrical state on the mechanical response. Evolution of the mechanical wave was studied by measuring profiles for several different thicknesses with the same electrical state. For poled specimens, simultaneous measurements were made of the depolarization current during the impact loading. Measured wave speed of the first detectable disturbance was sonic in some but not all cases. Measurements of Hugoniot states for unpoled material were also obtained.This publication has 8 references indexed in Scilit:
- Effect of nuclear radiation on the elastic moduli of zirconJournal of Applied Physics, 1976
- Electric energy generation by shock compression of ferroelectric ceramics: Normal−mode response of PZT 95/5Journal of Applied Physics, 1975
- Analysis of the Laser Velocity InterferometerJournal of Applied Physics, 1970
- Shock-Wave Studies of PMMA, Fused Silica, and SapphireJournal of Applied Physics, 1970
- Gas Gun for Impact StudiesReview of Scientific Instruments, 1970
- Shock-Wave Compression of Barium Titanate and 95/5 Lead Zirconate TitanateJournal of Applied Physics, 1968
- Depolarization of Ferroelectrics at High Strain RatesJournal of Applied Physics, 1967
- Domain Processes in Lead Titanate Zirconate and Barium Titanate CeramicsJournal of Applied Physics, 1959