Title |
Numerical investigation of excitation of various Lamb waves modes in thin plastic films / |
Authors |
Kazys, Rymantas Jonas ; Sestoke, Justina ; Zukauskas, Egidijus |
DOI |
10.3390/app12020849 |
Full Text |
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Is Part of |
Applied sciences.. Basel : MDPI. 2022, vol. 12, iss. 2, art. no. 849, p. 1-19.. ISSN 2076-3417 |
Keywords [eng] |
air-coupled ultrasonic ; Lamb waves ; finite element modeling ; plastic films |
Abstract [eng] |
Ultrasonic-guided waves are widely used for the non-destructive testing and material characterization of plates and thin films. In the case of thin plastic polyvinyl chloride (PVC), films up to 3.2 MHz with only two Lamb wave modes, antisymmetrical A0 and symmetrical S0, may propagate. At frequencies lower that 240 kHz, the velocity of the A0 mode becomes slower than the ultrasonic velocity in air which makes excitation and reception of such mode complicated. For excitation of both modes, we propose instead a single air-coupled ultrasonic transducer to use linear air-coupled arrays, which can be electronically readjusted to optimally excite and receive the A0 and S0 guided wave modes. The objective of this article was the numerical investigation of feasibility to excite different types of ultrasonic-guided waves, such as S0 and A0 modes in thin plastic films with the same electronically readjusted linear phased array. Three-dimensional and two-dimensional simulations of A0 and S0 Lamb wave modes using a single ultrasonic transducer and a linear phased array were performed. The obtained results clearly demonstrate feasibility to excite efficiently different guided wave modes in thin plastic films with readjusted phased array. |
Published |
Basel : MDPI |
Type |
Journal article |
Language |
English |
Publication date |
2022 |
CC license |
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