[1] Daniel, I. M. and lshai, O., “Engineering Mechanics of Composite Materials“ Oxford university press New York, Vol. 3, 1994.
[2] Gayathri, P., Umesh, K. and Ganguli, R., “Effect of Matrix Cracking and Material Uncertainty on Composite Plates“ Reliability Engineering & System Safety, Vol. 95, No. 7, pp. 716-728, 2010.
[3] Abrate, S., “Matrix Cracking in Laminated Composites: A Review“ Composites Engineering, Vol. 1, No. 6, pp. 337-353, 1991.
[4] Hu, H. W., “Physical Aging in Long Term Creep of Polymeric Composite Laminates“ Journal of Mechanics, Vol. 23, No. 3, pp. 245-252, 2007.
[5] Fathi, H., Kazemirad, S. and Nasir, V., “Lamb Wave Propagation Method for Nondestructive Characterization of the Elastic Properties of Wood“ Applied Acoustics, Vol. 171, pp. 107565, 2021.
[6] Gorgin, R., Luo, Y. and Wu, Z., “Environmental and Operational Conditions Effects on Lamb Wave Based Structural Health Monitoring Systems: A Review“ Ultrasonics, Vol. 105, pp. 106114, 2020.
[7] Ebrahiminejad, A., Mardanshahi, A. and Kazemirad, S., “Nondestructive Evaluation of Coated Structures Using Lamb Wave Propagation“ Applied Acoustics, Vol. 185, pp. 108378, 2022.
[8] Riahi, M. and Ahmadi, A., “Utilization of Artificial Neural Networks for Detection and Classification of Damages in Composite Plate-Like Structures Via Ultrasonic Guided Waves“ Journal of Science and Technology of Composites, Vol. 5, No. 3, pp. 343-352, 2018.
[9] Mardanshahi, A., Shokrieh, M.M. and Kazemirad, S., “Identification of Matrix Cracking in Cross-Ply Laminated Composites Using Lamb Wave Propagation“ Composite Structures, Vol. 235, pp. 111790, 2020.
[10] Mardanshahi, A., Nasir, V., Kazemirad, S. and Shokrieh, M.M., “Detection and Classification of Matrix Cracking in Laminated Composites Using Guided Wave Propagation and Artificial Neural Networks“ Composite Structures, Vol. 246, pp. 112403, 2020.
[11] Ramezani, H., Kazemirad, S., Shokrieh, M.M. and Mardanshahi, A., “Effects of Adding Carbon Nanofibers on the Reduction of Matrix Cracking in Laminated Composites: Experimental and Analytical Approaches“ Polymer Testing, Vol. 94, pp. 106988, 2021.
[12] Yilmaz, C., Topal, S., Ali, H. Q., Tabrizi, I. E., Al-Nadhari, A., Suleman, A. and Yildiz, M., “Non-Destructive Determination of the Stiffness Matrix of a Laminated Composite Structure with Lamb Wave“ Composite Structures, Vol. 237, pp. 111956, 2020.
[13] Fattahi, A., Ramezani, H., Shokrieh, M.M. and Kazemirad, S.,“Detection and Characterization of Matrix Cracking in Fiber‐Metal Laminates Using Lamb Wave Propagation“ Structural Control and Health Monitoring, Vol. 29, No. 10, pp. e3039, 2022.
[14] Mardanshahi, A., Shokrieh, M.M. and Kazemirad, S., “Simulated Lamb Wave Propagation Method for Nondestructive Monitoring of Matrix Cracking in Laminated Composites“ Structural Health Monitoring, Vol. 21, No. 2, pp. 695-709, 2021.
[15] Parvari, Y., Kazemirad, S. and Ramezani, H., “Nondestructive Evaluation of Bilayer Metal-Composite Structures Using Finite Element Simulation of Guided Lamb Wave Propagation“ Journal of Science and Technology of Composites, Vol. 8, No. 3, pp. 1700-1707, 2022.
[16] Deng, P., Saito, O., Okabe, Y. and Soejima, H., “Simplified Modeling Method of Impact Damage for Numerical Simulation of Lamb Wave Propagation in Quasi-Isotropic Composite Structures“ Composite Structures, Vol. 243, pp. 112150, 2020.
[17] Moser, F., Jacobs, L. J. and Qu, J., “Modeling Elastic Wave Propagation in Waveguides with the Finite Element Method“ NDT & E International, Vol. 32, No. 4, pp. 225-234, 1999.
[18] Alleyne, D. N. and Cawley, P., “A Two-Dimensional Fourier Transform Method for the Measurement of Propagating Multimode Signals“ Journal of the Acoustical Society of America, Vol. 89, pp. 1159-1168, 1991.
