Longitudinal piezoelectric coefficient measurement for bulk ceramics and thin films using pneumatic pressure rig

A pneumatic pressure rig was designed to measure the effective d(33) coeffi cient of thin film piezoelectrics by applying a known stress and monitoring the induced charge. It was found that the stress state imposed included co mponents both perpendicular and parallel to the film plane. The later were due to friction and could largely be relieved through sliding of the O-ring s to their equilibrium positions for a given pressure. The induced charge s tabilized as equilibrium was reached and most of it was produced by the nor mal component of the stress. By minimizing the surface friction and compens ating for the remnant in-plane stress, very good agreement was obtained amo ng the d(33) values measured by the Berlincourt method, double-beam interfe rometry and this method for a bulk lead zirconate titanate (PZT) sample. Th e d(33) value of PZT thin films made by sol-gel processing was also measure d. The as deposited films usually showed very weak piezoelectricity with d( 33) values ranging from 0 to 10 pC/N, indicating little pre-existing alignm ent of the domains. With increasing poling field, the d(33) value also incr eased and saturated at poling fields exceeding three times the coercive fie ld. Typically, films with thicknesses around 1 mu m had d(33) values of 100 pC/N. Good agreement between double-beam interferometry and this technique was also obtained for thin films. The small difference between the two mea surements is attributed to the effect of mechanical boundary conditions on the effective d(33) coefficient. (C) 1999 American Institute of Physics. [S 0021-8979(99)05813-2].