![Sample our Physical Sciences journals, sign in here to start your FREE access for 14 days]({"type":"image" , "src" : "/sda/110819/TOC-Subject-Sample-2021-Physical-Sciences.jpg"})
Abstract
Abstract
Polypropylene based ferroelectret films exhibit a strong electromechanical activity and provide a promising solution for the air coupled ultrasonic (ACUS) transducers. Ultrasonic transmission between two air coupled ferroelectret transducers in dependence on the amplitude and polarity of the high voltage exciting pulse revealed a strongly non-linear electromechanical response of the ferroelectret transmitter which provides an increase in the transmitter efficiency. The authors present a simple model describing both promotion and competition of the piezoelectric and electrostriction contributions, as well as increase in the transducer constant under high voltage excitation. Enlargement of the inverse transducer constant of the polypropylene ferroelectret film by a factor of 4 was demonstrated. The non-linear properties of the polypropylene ferroelectrets result in a strong increase in their ACUS figure of merit under the high voltage excitation, which exceeds the results of their technological optimisation. Consequently, enhancement of the ACUS system transmission by 12 dB and signal to noise ratio by 32 dB was achieved.
The authors are grateful to Mr C. Lappöhn (BAM, Berlin) for his technical assistance and to Dr M. Wegener (Fraunhofer Inst. for Applied Polymer Research, Potsdam, Germany) for providing the PP FE films with optimised mesostructure and softness. This work was supported by the Czech Science Foundation (project no. P204/10/0616), by the Academy of Sciences of the Czech Republic (project no. AVOZ10100520) and by the MNPQ-Program of the German Federal Ministry of Economics and Technology.
Notes
This paper is part of a special issue on Piezoelectric Materials for End Users