PSI - Issue 33

M.F.M.O. Rosas et al. / Procedia Structural Integrity 33 (2021) 115–125 Rosas et al. / Structural Integrity Procedia 00 (2019) 000 – 000

125

11

Campilho, R. D. S. G., Banea, M. D., Neto, J. A. B. P. and da Silva, L. F. M., 2012. Modelling of single-lap joints using cohesive zone models: Effect of the cohesive parameters on the output of the simulations. The Journal of Adhesion 88(4-6), 513-533. Campilho, R. D. S. G., Banea, M. D., Neto, J. A. B. P. and da Silva, L. F. M., 2013. Modelling adhesive joints with cohesive zone models: effect of the cohesive law shape of the adhesive layer. International Journal of Adhesion and Adhesives 44, 48-56. Campilho, R. D. S. G., Banea, M. D., Pinto, A. M. G., da Silva, L. F. M. and de Jesus, A. M. P., 2011. Strength prediction of single- and double lap joints by standard and extended finite element modelling. International Journal of Adhesion and Adhesives 31(5), 363-372. Campilho, R. D. S. G., de Moura, M. F. S. F., Barreto, A. M. J. P., Morais, J. J. L. and Domingues, J. J. M. S., 2009. Fracture behaviour of damaged wood beams repaired with an adhesively-bonded composite patch. Composites Part A: Applied Science and Manufacturing 40(6 – 7), 852-859. Carvalho, U. T. F. and Campilho, R. D. S. G., 2016. Application of the direct method for cohesive law estimation applied to the strength prediction of double-lap joints. Theoretical and Applied Fracture Mechanics 85, Part A, 140-148. Davis, M. and Bond, D., 1999. Principles and practices of adhesive bonded structural joints and repairs. International Journal of Adhesion and Adhesives 19(2 – 3), 91-105. Goland, M. and Reissner, E., 1944. The stresses in cemented joints. Journal of Applied Mechanics 66, A17 – A27. He, X., 2011. A review of finite element analysis of adhesively bonded joints. International Journal of Adhesion and Adhesives 31(4), 248-264. Kim, J. K. and Lee, D. G., 2001. Thermal characteristics of tubular single lap adhesive joints under axial loads. Journal of Adhesion Science and Technology 15(12), 1511-1528. Kim, K., 2015. Softening behaviour modelling of aluminium alloy 6082 using a non-linear cohesive zone law. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials Design and Applications 229(5), 431-435. Lavalette, N. P., Bergsma, O. K., Zarouchas, D. and Benedictus, R., 2020. Influence of geometrical parameters on the strength of Hybrid CFRP aluminium tubular adhesive joints. Composite Structures 240, 112077. Machado, R. M. D., Campilho, R. D. S. G. and Rocha, R. J. B., 2019. Extended finite element modelling of aluminium stepped-adhesive joints. The Journal of Adhesion 95(5-7), 450-473. Moreira, R. D. F. and Campilho, R. D. S. G., 2015. Strength improvement of adhesively-bonded scarf repairs in aluminium structures with external reinforcements. Engineering Structures 101, 99-110. Moreira, R. D. F. and Campilho, R. D. S. G., 2016. Parametric Study of the Reinforcement Geometry on Tensile Loaded Scarf Adhesive Repairs. The Journal of Adhesion 92(7-9), 586-609. Nguyen, V. and Kedward, K. T., 2001. Non-linear Modeling of Tubular Adhesive Scarf Joints Loaded in Tension. The Journal of Adhesion 76(3), 265-292. Nunes, S. L. S., Campilho, R. D. S. G., da Silva, F. J. G., de Sousa, C. C. R. G., Fernandes, T. A. B., Banea, M. D. and da Silva, L. F. M., 2016. Comparative failure assessment of single and double-lap joints with varying adhesive systems. The Journal of Adhesion 92, 610-634. Pascoe, J. A., Alderliesten, R. C. and Benedictus, R., 2013. Methods for the prediction of fatigue delamination growth in composites and adhesive bonds – A critical review. Engineering Fracture Mechanics 112 – 113, 72-96. Petrie, E. M. (2000). Handbook of adhesives and sealants. New York, McGraw-Hill. Ramalho, L. D. C., Campilho, R. D. S. G., Belinha, J. and da Silva, L. F. M., 2020. Static strength prediction of adhesive joints: A review. International Journal of Adhesion and Adhesives 96, 102451. Sekercioglu, T., 2007. Strength based reliability of adhesively bonded tubular lap joints. Materials & Design 28(6), 1914-1918. Volkersen, O., 1938. Die nietkraftoerteilung in zubeanspruchten nietverbindungen konstanten loschonquerschnitten. Luftfahrtforschung 15 41 47. Woelke, P. B., Shields, M. D., Abboud, N. N. and Hutchinson, J. W., 2013. Simulations of ductile fracture in an idealized ship grounding scenario using phenomenological damage and cohesive zone models. Computational Materials Science 80, 79-95. Zhao, B., Lu, Z.-H. and Lu, Y.-N., 2014. Two-dimensional analytical solution of elastic stresses for balanced single-lap joints — Variational method. International Journal of Adhesion and Adhesives 49, 115-126.