PSI - Issue 45

Xianwen Hu et al. / Procedia Structural Integrity 45 (2023) 20–27 Hu, X., Liang, P., Ng, C.T., and Kotousov, A. / Structural Integrity Procedia 00 (2019) 000 – 000

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116, 10. Hughes, J.M., Mohabuth, M., Khanna, A., Vidler, J., Kotousov, A. and Ng, C.T., 2021a. Damage detection with the fundamental mode of edge waves. Structural Health Monitoring 20, 74-83. Hughes, J.M., Mohabuth, M., Kotousov, A. and Ng, C.T., 2021b. The fundamental ultrasonic edge wave mode: Propagation characteristics and potential for distant damage detection. Ultrasonics 114, 106369. Hu, X., Ng, C.T. and A. Kotousov, 2022. Early damage detection of metallic plates with one side exposed to water using the second harmonic generation of ultrasonic guided waves. Thin-Walled Structures 176, 109284. Hu, X., Yin, T., Zhu, H., Ng, C.T., and Kotosov, A., 2022. Structural health monitoring of partially immersed metallic plates using nonlinear guided wave mixing. Construction and Building Materials 346, 128381. Jhang, K.Y., Lissenden, C., Solodov, I., Ohara, Y., and Gusev, V., 2020. Measurement of Nonlinear Ultrasonic Characteristics. Li, W., Cho, Y., and Achenbach, J.D., 2012. Detection of thermal fatigue in composites by second harmonic Lamb waves. Smart Materials and Structures 21, 085019. Li, W., Hu, S., and Deng, M., 2018. Combination of Phase Matching and Phase-Reversal Approaches for Thermal Damage Assessment by Second Harmonic Lamb Waves. Materials 11, 1961. Li, W. and Cho, Y., 2014. Thermal Fatigue Damage Assessment in an Isotropic Pipe Using Nonlinear Ultrasonic Guided Waves. Experimental Mechanics 54, 1309-1318. Liang, P., and Ng, C.T., Early Detection of Fatigue in Aluminium Plate using Ultrasonic Edge Wave. 2021, University of Adelaide. p. 24. Rose, J.L., Ultrasonic Guided wave in solid media. 2014. Sampath, S. and Sohn, H., 2022. Cubic nonlinearity parameter measurement and material degradation detection using nonlinear ultrasonic three wave mixing. Ultrasonics 121, 106670. SIMULIA, Getting Started with Abaqus. 6.8 ed. 2008. Su, Z. and Ye, L., 2009. Identification of Damage Using Lamb Wave. Stobbe, D.M., 2005. Acoustoelastic in 7075-T651 Aluminum and Dependence of Third Order Elastic Constants on Fatigue Damage, in School of Mechanical Engineering, Georgia Institute of Technology. Wilde, M.V., Golub, M.V., and Eremin, A.A., 2019. Experimental and theoretical investigation of transient edge waves excited by a piezoelectric transducer bonded to the edge of a thick elastic plate. Journal of Sound and Vibration 441, 26-49. Yang, Y., Ng, C.T., and Kotousov, A., 2019. Second-order harmonic generation of Lamb wave in prestressed plates. Journal of Sound and Vibration 460, 114903. Yang, Y., Ng, C.T., Kotousov, A., Sohn, H., and Lim, H.J., 2018. Second harmonic generation at fatigue cracks by low-frequency Lamb waves: Experimental and numerical studies. Mechanical Systems and Signal Processing 99, 760-773. Zhu, H., Ng, C.T., and Kotousov, A., 2022. Low-frequency Lamb wave mixing for fatigue damage evaluation using phase-reversal approach. Ultrasonics 124, 106768. Zhu, H., Ng, C.T., and Kotousov, A., 2022. The performance optimization of combinational harmonic generation for quasi-synchronous Lamb wave mixing, in Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2022.