PSI - Issue 22

Carlos D.S. Souto et al. / Procedia Structural Integrity 22 (2019) 376–385 Author name / Structural Integrity Procedia 00 (2018) 000–000

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Correia, J., Raposo, P., Muniz-Calvente, M., Blaso´n, S., Lesiuk, G., De Jesus, A., Moreira, P., Calc¸ada, R., Canteli, A., 2018. A generalization of the fatigue Kohout-Veˇchet model for several fatigue damage parameters. Engineering Fracture Mechanics, vol. 185, pp. 284-300. De Jesus, A., Pinto, H., Ferna´ndez-Canteli, A., Castillo, E., Correia, J., 2010. Fatigue assessment of a riveted shear splice based on a probabilistic model. International Journal of Fatigue, vol. 32, no. 2, pp. 453-462. Eurocode 1 EN1991-2, 2004. Actions on Structures – Part 2: Tra ffi c Loads on Bridges. European Committee for Standardization, Brussels. Eurocode 3 EN1993-1-9, 2014. Design of Steel Structures - Part 1-9: Fatigue. European Committee for Standardization, Brussels. Imam, B., Salter, P., 2018. Historical load e ff ects on fatigue of metallic railway bridges. Proceedings of the Institution of Civil Engineers: Bridge Engineering, vol. 171, no. 1, pp. 49-62. Kuz˙awa, M., Kamin´ski, T., Bien´ , J., 2018. Fatigue assessment procedure for old riveted road bridges. Archives of Civil and Mechanical Engineering, vol. 18, no. 4, pp. 1259-1274. Liu, Z., Hebdon, M., Correia, J., Carvalho, H., Vilela, P., De Jesus, A., Calc¸ada, R., 2017. Fatigue Life Evaluation of Critical Details of the Herc´ılio Luz Suspension Bridge. Procedia Structural Integrity, vol. 5, pp. 1027-1034. Liu, Z., Hebdon, M., Correia, J., Carvalho, H., Vilela, P., De Jesus, A., Calc¸ada, R., 2019a. Fatigue Assessment of Critical Connections in a Historic Eyebar Suspension Bridge. Journal of Performance of Constructed Facilities, vol. 33, no. 1, 04018091. Liu, Z., Correia, J., Carvalho, H., Moura˜o, A., De Jesus, A., Calc¸ada, R., Berto, F., 2019b. Global-local fatigue assessment of an ancient riveted metallic bridge based on submodelling of the critical detail. Fatigue and Fracture of Engineering Materials and Structures, vol. 42, no. 2, pp. 546-560. Matsuishi, M., Endo, T., 1968. Fatigue of metals subjected to varying stress. Japan Society of Mechanical Engineering, Fukuoka, Japan. Miner, M., 1945. Cumulative Damage in Fatigue. Journal of Applied Mechanics, vol. 12, no. 3, pp. A159-A164. Pedrosa, B., Correia, J., Rebelo, C., Lesiuk, G., De Jesus, A., Fernandes, A., Duda, M., Calc¸ada, R., Veljkovic, M., 2019. Fatigue resistance curves for single and double shear riveted joints from old portuguese metallic bridges. Engineering Failure Analysis, vol. 96, pp. 255-273. Rakoczy, A., Otter, D., Dick, S., 2019. Railroad bridge fatigue life estimation using the probabilistic method and new fatigue resistance for riveted details. Structure and Infrastructure Engineering, in press. Ribeiro, D., Calc¸ada, R., Delgado R., 2006. Fatigue of metallic railway bridges: implementation of a methodology of analysis and application to the Alca´cer do Sal bridge. IABMAS’06, Porto, Portugal. Viana, C., Carvalho, H., Correia, J., Montenegro, P., Heleno, R., Alencar, G., De Jesus, A., Calc¸ada, R., 2019. Fatigue assessment based on hot spot stresses obtained from the global dynamic analysis and local static sub-model. International Journal of Structural Integrity, in press, DOI: 10.1108 / IJSI-03-2019-0021.