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Ultrasonic imaging using air-coupled P(VDF/TrFE) transducers at 2 MHz.

Ultrasonics (2009-02-14)
Sadayuki Takahashi, Hiroji Ohigashi
ABSTRAKT

A reflection non-contact ultrasonic microscope system working both in amplitude and phase difference modes at 2 MHz has been developed using an air-coupled concave transducer made of piezoelectric polymer films of poly(vinylidene fluoride/trifluoroethylene) [P(VDF/TrFE)]. The transducer is composed of three 95 microm-thick P(VDF/TrFE) films stacked together, each of which is activated electrically in parallel by a driving source. The transducer has a wide aperture angle of 140 degrees and a focal length of 10mm. The measured two-way transducer insertion loss is 80 dB at 1.83 MHz. Despite 20 dB higher insertion loss than that estimated from Mason's equivalent circuit, we have obtained clear amplitude acoustic images of a coin with transverse resolution of 150 microm, and clear phase difference acoustic images of the rough surface of a paper currency bill with depth resolution of sub-micrometer. Using two planar transducers of P(VDF/TrFE), we have also successfully measured in through-transmission mode the sound velocity and absorption of a 3mm-thick silicone-rubber plate. The present study proves that, owing to its low acoustic impedance and flexibility, P(VDF/TrFE) piezoelectric film is very useful for high frequency acoustic imaging in air in the MHz range.

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Sigma-Aldrich
Trifluoroethylene, ≥97.5% (GC)