[1] Volterra, V., “Sur Pe'quilibre Des Carps Elastiques Multiplement Connexes”, Annales Scientifiques De l’Ecole Normale Superiure, Paris, Series 3, Vol. 24, pp. 401-517,(1907).
[2] Narita, F., and Shindo, Y., “Scattering of Antiplane Shear Waves by a Finite Crack in Piezoelectric Laminates”, Acta Mechanica, Vol. 134, pp. 27-73, (1999).
[3] Lee, J. S., Kwon, S. M., Lee, K. Y., and Kwon, J. H., “Anti-plane Interfacial Yoffe-crack between a Piezoelectric and Two Orthotropic Layers”, European Journal of Mechanics A/Solids, Vol. 21, pp. 483-492, (2002).
[4] Kwon, S. M., Lee, J. S., and Lee, K. Y., “Moving Eccentric Crack in a Piezoelectric Strip Bonded to Elastic Half Planes”, International Journal of Solids and Structures, Vol. 39, pp. 4395-4406, (2002).
[5] Kwon, S. M., Son, M. S., and Lee, K. Y., “Transient Behavior in a Cracked Piezoelectric Layered Composite: Anti-plane Problem”, Mechanics of Materials, Vol. 34, pp. 593-603, (2002).
[6] Zhao, X., Meguid, S. A., and Liew, K. M., “The Transient Response of Bonded Piezoelectric and Elastic Half Space with Multiple Interfacial Collinear Cracks”, Acta Mechanica, Vol. 159, pp. 11-27, (2002).
[7] Ueda, S., “Crack in Functionally Graded Piezoelectric Strip Bonded to Elastic Layers under Electromechanical Loading”, Theoretical and Applied Fracture Mechanics, Vol. 40, pp. 225-236, (2003).
[8] Kwon, S. M., and Lee, K.Y., “Steady State Crack Propagation in a Piezoelectric Layer Bonded between Two Orthotropic Layers”, Mechanics of Materials, Vol. 35, pp. 1077-1088, (2003).
[9] Chen, J., Soh, A. K., Liu, J., and Liu, Z. X., “Transient Anti-plane Crack Problem of a Functionally Graded Piezoelectric Strip Bonded to Elastic Layers”, Acta Mechanica, Vol. 169, pp. 87-100, (2004).
[10] Zhong, X. C., and Li, X. F., “A Finite Length Crack Propagating Along the Interface of Two Dissimilar Magnetoelectroelastic Materials”, International Journal of Engineering Science, Vol. 44, pp. 1394-1407, (2006).
[11] Cheng, Z., and Zhao, X., “Fracture Analysis of a Functionally Graded Piezoelectric Coating with Viscoelastic Interfaces”, IEEE, pp. 408-411, (2009).
[12] Li, Y. D., and Lee, K. Y., “Interaction between an Electrically Permeable Crack and the Imperfect Interface in a Functionally Graded Piezoelectric Sensor”, International Journal of Engineering Science, Vol. 47, pp. 363-371, (2009).
[13] Mousavi, S. M., and Paavola, J., “Analysis of Cracked Functionally Graded Piezoelectric Strip, International Journal of Solids and Structures”, Vol. 50, pp. 2449–2456, (2013).
[14] Asadi, E., Fariborz, S. J., and Fotuhi A. R., “Anti-plane Analysis of Orthotropic Strips with Defects and Imperfect FGM Coating”, European Journal of Mechanics A/Solids, Vol. 34, pp. 12-20, (2012).
[15] Bayat, J., Ayatollahi, M., and Bagheri, R., “Fracture Analysis of an Orthotropic Strip with Imperfect Piezoelectric Coating Containing Multiple Defects”, Theoretical and Applied Fracture Mechanics, Vol. 77, pp. 41–49, (2015).
[16] Bagheri, R., Ayatollahi, M., and Mousavi, S.M., “Analysis of Cracked Piezoelectric Layer with Imperfect Non-homogeneous Orthotropic Coating”, International Journal of Mechanical Sciences, Vol. 93, pp. 93–101, (2015).
[17] Delale, F., and Erdogan, F., “The Crack Problem for a Nonhomogeneous Plane”, Journal of Applied Mechanics, Vol. 50, pp. 609-614, (1983).
[18] Korsunsky, A. M., and Hills, D. A., “The Solution of Crack Problems by using Distributed Strain Nuclei”, Part C: Journal of Mechanical Engineering Science, Vol. 210, No. 1, pp. 23-31, (1996).
[19] Erdogan, F., Gupta, G. D., and Cook, T. S., “Numerical Solution of Singular Integral Equations, Method of Analysis and Solution of Crack Problems” , Edited by G. C. Sih, Noordhoof, Leyden, Holland, (1973).
[20] Faal, R. T., Fotuhi, A. R., Fariborz, S. J., and Daghyani, H. R., “Antiplane Stress Analysis of an Isotropic Wedge with Multiple Cracks”, International Journal of Solids and Structures, Vol. 41, pp. 4535-4550, (2004).
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