2017
DOI: 10.1016/j.prostr.2017.07.063
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Fatigue Life Evaluation of Critical Details of the Hercílio Luz Suspension Bridge

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Cited by 7 publications
(4 citation statements)
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“…Kashefi et al (2010) presented the procedures used for assessment of remaining fatigue life of an aging steel deck bridge using strain field measurements carried out on critical fatigue details as well as laboratory tests on limited samples. Liu et al (2017) performed a fatigue life evaluation for critical connections of a suspension bridge under the passing fatigue truck load. Leander et al (2018) presented a case study of a steel railway bridge subjected to fatigue deterioration with an overall aim to support rational decisions on how to evaluate and procure different assessment actions to improve the accuracy of the predicted service life of existing bridges.…”
Section: Literature Surveymentioning
confidence: 99%
“…Kashefi et al (2010) presented the procedures used for assessment of remaining fatigue life of an aging steel deck bridge using strain field measurements carried out on critical fatigue details as well as laboratory tests on limited samples. Liu et al (2017) performed a fatigue life evaluation for critical connections of a suspension bridge under the passing fatigue truck load. Leander et al (2018) presented a case study of a steel railway bridge subjected to fatigue deterioration with an overall aim to support rational decisions on how to evaluate and procure different assessment actions to improve the accuracy of the predicted service life of existing bridges.…”
Section: Literature Surveymentioning
confidence: 99%
“…In 2012, Guo et al [16] proposed a probabilistic finite element analysis method in combination with the traffic load model to evaluate the time-varying fatigue reliability level of steel bridge welding details. In 2017, Liu et al [17] used the fatigue load model to evaluate the fatigue life, the results show that the connection between the truss and the beam at the transition point is prone to fatigue damage. In 2018, Yuan et al [18] used a probabilistic finite element model to estimate the microscopic small fatigue crack growth in the weld of bridge steel.…”
Section: Introductionmentioning
confidence: 99%
“…Recent studies have proposed the application of local approaches, based on fracture mechanics or on strain or stress-life relations, determined for the base material with smooth specimens, for the fatigue analysis of metallic structures (Sanches et al, 2015;Jesus et al, 2014Jesus et al, , 2015. There are few papers available in the literature that apply local approaches in the fatigue analysis of riveted bridges (DePiero et al, 2002;Al-Emrani and Kliger, 2003;Iman, 2006;Imam et al, 2007;Righiniotis et al, 2008;Imam and Righiniotis, 2010;Muñiz-Calvente et al, 2017;Horas et al, 2017;Kwad et al, 2017;Liu et al, 2017). Although these approaches may potentially be applied to any type of connection, they require a detailed analysis of the stresses on the connections and, consequently, considerable computational resources are required to overcome the structural bridge scale and the fatigue damage local scale.…”
Section: Introductionmentioning
confidence: 99%