Issue 48

C. E. Cruz Gonzalez et alii, Frattura ed Integrità Strutturale, 48 (2019) 530-544; DOI: 10.3221/IGF-ESIS.48.51 544 [5] Bermejo, R., Oñoro, J. and García-Ledesma, R. (2008). Comportamiento a fatiga de uniones a solape simple con adhesivo epoxi de acero y acero prepintado, Revista de Metalurgia, 44 (4), pp. 310-316. [6] Altan, G., Topcu, M. and Callioglu, H. (2010). The effects of the butterfly joints on failure loads and fatigue performance of composite structures. Science and Engineering of Composite Materials, 17 (3), pp. 199–212. [7] Fessel, G., Broughton, J.G., Fellows, N.A., Durodola J.F. and Hutchinson, A. R. (2009). Fatigue performance of metallic reverse bent joints, Fat Fract Eng Mat Struct., 32 (9), pp. 704–712. [8] Azari, S., Papini, M. and Spelt, J.K. (2011). Effect of adhesive thickness on fatigue and fracture of toughened epoxy joints – Part I: Experiments, Eng Fract Mech, 78 (1), pp. 153-162. [9] Markolefas, S.I. and Papathanassiou, T. (2009). Stress redistributions in adhesively bonded double-lap joints, with elastic–perfectly plastic adhesive behavior, subjected to axial lap-shear cyclic loading, Int. J. of Adhesion & Adhesives, 29 (7), pp. 737–744. [10] Datla, N.V., Papini, M., Schroeder, J.A. and Spelt, J.K. (2010). Modified DCB and CLS specimens for mixed-mode fatigue testing of adhesively bonded thin sheets, Int. J. of Adhesion & Adhesives, 30 (6), pp. 439–447. [11] Hoang-Ngoc, C.-T. and Paroissien, E. (2010). Simulation of single-lap bonded and hybrid (bolted/bonded) joints with flexible adhesive, Int. J. of Adhesion and Adhesives, 30 (3), pp. 117–129, 2010. [12] Kelly, G. (2006). Quasi-static strength and fatigue life of hybrid (bonded/bolted) composite single-lap joints, Composite Structures, 72 (1), pp. 119-129. [13] Sam, S. and Shome, M. (2010). Static and fatigue performance of weld bonded dual phase steel sheets, Science and Technology of Welding & Joining, 15 (3), pp. 242–247. [14] Goncalves, V.M. and Martins, P.A.F. (2006). Static and fatigue performance of weld-bonded stainless steel joints, Materials and Manufacturing Processes, 21 (8), pp. 774–778. [15] Chang, B.H., Shi, Y.W. and Lu, L.Q. (2001). Studies on the stress distribution and fatigue behavior of weld-bonded lap shear joints, J. of Materials Processing Technology, 108 (3), pp. 307-313, 2001. [16] Galvez, P., Quesada, A., Martinez, M. A., Abenojar, J., Boada, M.J.L. and Diaz, V. (2017). Study of the behaviour of adhesive joints of steel with CFRP for its application in bus structures, Composites Part B, 129, pp. 41-46. [17] ASTM D638 (2014). Standard Test Method for Tensile Properties of Plastics. ASTM International, West Conshohocken, PA, USA. [18] ASTM D1002 (2010). Standard Test Method for Apparent Shear Strength of Single-Lap-Joint Adhesively Bonded Metal Specimens by Tension Loading (Metal-to-Metal). ASTM International, West Conshohocken, PA, USA. [19] ASTM D3166-99 (2012). Standard Test Method for Fatigue Properties of Adhesives in Shear by Tension Loading (Metal/Metal). ASTM International, West Conshohocken, PA, USA. [20] Karachalios, E.F., Adams, R.D. and Silva, L. da (2013). The behaviour of single lap joints under bending loading," J. of Adhesion Science and Technology, 27 (16), pp. 1811–1827. [21] Karachalios, E.F., Adams, R.D. and Silva, L. da (2013). Single lap joints loaded in tension with ductile steel adherends, Int. J. of Adhesion & Adhesives, 43, pp. 96-108. [22] Ashcroft, I.A. (2005). Adhesive Bonding - Science, Technology and Applications, Chapter 10. Fatigue. Woodhead Publishing, pp. 209-239. [23] Cruz-Gonzalez, C., Jamilloux, A., Santillan-Gutierrez, S., Gonzalez-Garcia, P., Taha-Tijerina, J., Romero, R. and Gamez-Cuatzin, H. (2018). Evaluacion por elementos finitos de uniones con adhesivos de materiales disimiles (acero- aluminio), Dyna. Ingeniería e Industria, 4, pp. 404-410. [24] Akhavan-Safar, A., da Silva, L. and Ayatollahi, M. (2017). An investigation on the strength of single lap adhesive joints with a wide range of materials and dimensions using a critical distance approach, Int. J. of Adhesion and Adhesives, 78, pp. 248-255. [25] Becker, W.T. and Shipley, R.J. (2002). ASM Handbook. Volume 11: Failure Analysis and Prevention, ASM International, pp. 627-640. [26] Atif, R. and Inam, F. (2016). Influence of Macro-Topography on Damage Tolerance and Fracture Toughness of Monolithic Epoxy for Tribological Applications, World Journal of Engineering and Technology, 4 (2), pp. 335-360. [27] Banea, M. D., Rosioara, M., Carbas, R. and da Silva, L. (2018). Multi-material adhesive joints for automotive industry, Composites Part B, 151, p. 71–77. [28] Shiuh-Chuan, H. (1999). Stress analysis of adhesively-bonded lap joints, Composite Structures, 47, pp. 673-678.