Issue 50

A. Benzaama et alii, Frattura ed Integrità Strutturale, 50 (2019) 184-193; DOI: 10.3221/IGF-ESIS.50.16 193 [2] Pastor, M.L., Balandraud, X., Grediac, M., Robert, J.L. (2008). On the fatigue response of aluminum specimens reinforced with carbon–epoxy patches. Composite Structures, 83, pp. 237–246. [3] Baker, A. (2008). Structural health monitoring of a bonded Composite patch repair on a fatigue Cracked F- 111C Wing Defense Science and Technology Organization (Australia). [4] Baker, A., Francis, R., Rhys, J. (2003). Advances in the Bonded Composite Repair of Metallic Aircraft Structure. 1, Elsevier. [5] Emin, E., Süleyman, T.G., Mzaffer, T. (2010). Fatigue and fracture analysis of aluminum plate with composite patches under the hydrothermal effect. Composite Structures, 92, pp. 2622–2631. [6] Madani, K., Touzain, S., Feaugas, X., Cohendouz, S., Ratwani, M. (2010). Experimental and numerical study of repair techniques for panels with geometrical discontinuities, Computational Materials Science, 48, pp. 83–93. [7] Lieurade, H. P., Jian, L. U. (2012). Concentration de contraintes. Ed. Techniques Ingénieur. [8] Neuber, H. (1961). Theory of Notch Stresses, Office of Technical Services. [9] Peterson, R.E. (1974). Stress Concentration Factors, John Wiley & Sons. New York, 150, pp. 34. [10] Torabi, A. (2013). The equivalent material concept: Application to failure of O-notches. Engineering Solid Mechanics, 1(4), pp. 129-140. [11] Berto, F., Torgersen, J., Campagnolo, A. (2017). A review of the fatigue strength of structural materials under multiaxial loading in terms of the local energy density. Engineering Solid Mechanics, 5(4), pp. 245-270. [12] Torabi, A., Hosseini, B. (2017). Large plasticity induced crack initiation from U-notches in thin aluminum sheets under mixed mode loading. Engineering Solid Mechanics, 5(1), pp. 39-60. [13] Fotouhi, Y., Berto, F. (2018). Experimental notched fracture resistance study for the interface of Al–Cu bimetal joints welded by friction stir welding. [14] Gopichand, A., Kumar, M. S. and Sharma, A. V. N. L. (2012). Computation of Stress Intensity Factor of Cracked Aluminum Plate Using Virtual Crack Closure Technique, International Journal of Engineering Research and Applications, 2(6), pp. 460-465. [15] Sukumar, N., Moes, N., Moran, B. and Belytschko, T. (2000). Extended Finite Element Method for Three-Dimensional Crack Modeling, International Journal for Numerical Methods in Engineering, 48(11), pp. 1549- 1570. [16] Nagashima, T. and Suemasu, H. (2010). XFEM Analyses of a Thin-Walled Composite Shell Structure with a Delamination, Computer and Structure, 88(9-10), pp. 549-557. [17] Sukumar, N., Chopp, D. L., Moës, N. and Belytschko, T. (2001). Modeling Holes and Inclusions by Level sets in the Extended Finite Element Method, Computer Methods in Applied Mechanics and Engineering, 190(46-47), pp. 6183- 6200. [18] Stolarska, M., Chopp, D. L., Moës, N. and Belytschko, T. (2001). Modeling Crack Growth by Level Sets in the Extended Finite Element Method, International Journal for Numerical Methods in Engineering, 51(8), pp. 943-960. [19] ABAQUS, Abaqus Version (2009). “6.9 Documentation.” Providence, RI: Dassault Systems Simulia Corporation.