The time domain wave forms and spatial amplitude distributions produced by
interdigital PVDF transducers on a steel plate have been investigated both
experimentally and theoretically using a simple finite element model in whi
ch it is assumed that the motion of the plate does not affect the behaviour
of the transducer, and. that the transducer simply applies out-of-plane fo
rces to the plate. Excellent agreement between the measured time domain wav
eforms at different frequency-thickness products and predictions obtained w
ith a two dimensional finite element analysis have been obtained. The spati
al distribution of wave amplitude over the surface of the plate generated b
y different transducer designs predicted using a three dimensional finite e
lement analysis also agreed very well with experiments both for a rectangul
ar transducer and a "pie slice" transducer in which the length of the finge
rs increased along the transducer. It has therefore been shown that the sim
ple, un-coupled model provides a good representation of the behaviour of PV
DF based interdigital transducers on metal plates. The spatial and temporal
wave fields generated by the rectangular and 'pie slice' transducers were
very similar, indicating that it would be possible to produce a polygonal t
ransducer split into sectors, each interrograting well-defined region of a
structure.