Abstract
Directional piezoelectric sensors can detect the Lamb wave propagation direction to locate damage in structural health monitoring (SHM). The directivity of the round piezoelectric fiber is exploited with a 0°/45°/90° rosette configuration to acquire flexural Lamb wave signals. The directional response of the piezoelectric fiber under narrowband tone-burst excitation is theoretically deduced. Experimental tests are conducted to demonstrate the directivity and the frequency response property of the piezoelectric fiber under different excitation central frequencies in comparison with the MFC, rectangular piezoelectric sheet, and circular piezoelectric disc. Continuous wavelet transform (CWT) is applied to extract the maximum response amplitude information of the acquired Lamb wave signal at a central frequency. Experimental test results indicate that the piezoelectric fiber is capable to be used as a Lamb wave directional sensor than other piezoelectric sensors. A numerical estimation method for the Lamb wave propagation direction is proposed by defining an error function between the theoretical and experimental normalized response amplitude. The proposed method is generally applicable for different rosette configurations. Experimental results validate the accuracy of the proposed estimation method. The research results are significant to design or select the piezoelectric sensor to measure Lamb wave signals.
Highlights
Structural health monitoring (SHM) is an emerging technique that is capable of detecting damage and evaluating structural integrity and reliability
Piezoelectric sensors made of lead zirconate titanate (PZT) ceramics are widely used in SHM applications
Lin et al [9] proposed a piezoelectric fiber composites (PFCs) sensor consisting of unidirectionally aligned rectangular piezoelectric fibers and investigated its sensing and localization performance using the acoustic emission (AE) technique compared with the macrofiber composite (MFC) and piezoelectric disk
Summary
Structural health monitoring (SHM) is an emerging technique that is capable of detecting damage and evaluating structural integrity and reliability. E directional sensitivity of piezoelectric composite sensors makes them more attractive to detect the Lamb wave propagation direction [2, 8, 9, 14]. Lin et al [9] proposed a PFC sensor consisting of unidirectionally aligned rectangular piezoelectric fibers and investigated its sensing and localization performance using the AE technique compared with the MFC and piezoelectric disk. Liu et al [23] investigated the high directivity of the metal-core piezoelectric fiber (MPF), and a new imaging method with the MPF rosette is proposed to improve the accuracy of impact localization [24]. Three round piezoelectric fibers with a 0°/ 45°/90° rosette configuration are applied for Lamb wave propagation direction estimation. Experimental tests with different frequencies are conducted to validate the effectiveness of the proposed method
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