A methodology for a global-local fatigue analysis of ancient riveted metallic bridges

Purpose Recent studies have proposed the application of local fatigue approaches based on fracture mechanics or on strain-life material relations for the fatigue analysis of metallic structures. However, only few studies in the literature apply local approaches in the riveted bridges analysis; altho...

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Bibliographic Details
Published in:International journal of structural integrity 2018-06, Vol.9 (3), p.355-380
Main Authors: Leite, Regina C.G, de Jesus, Abilio M.P, Correia, José, Raposo, Patricia, Jorge, Renato N, Parente, Marco Paulo, Calçada, Rui
Format: Article
Language:English
Subjects:
Automation
Boundary conditions
Bridges
Cost analysis
Crack propagation
Cultural heritage
Damage assessment
Dismantling
Economic analysis
Economic factors
Fatigue failure
Fatigue life
Fracture mechanics
Historical metallurgy
Methodology
Railway bridges
Riveted joints
Riveting
Rivets
S N diagrams
Strain
Stress analysis
Structural damage
Subassemblies
Trains
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Summary:Purpose Recent studies have proposed the application of local fatigue approaches based on fracture mechanics or on strain-life material relations for the fatigue analysis of metallic structures. However, only few studies in the literature apply local approaches in the riveted bridges analysis; although these approaches can be applied to any type of connections, requiring a detailed stress analysis of joints and, consequently, considerable computational resources costs. The approach based on S-N curves, formulated in nominal or net stresses, is more usual in the fatigue analysis of riveted bridges. Due to economic factors, riveted bridges have had their operating life extended, while changes in the transport system over the years have subjected such structures to overloads different from those originally planned. These bridges, most of them centenary, were not originally designed accounting for fatigue damage; they represent an important group of structures that are very likely subjected to significant fatigue damage indexes. These factors make necessary detailed residual fatigue life studies to substantiate the decisions of extend (or not) the operational period of these bridges. The paper aims to discuss these issues. Design/methodology/approach The present paper presents a methodology aiming at applying the local approaches in the fatigue analysis of riveted joints of metallic bridges, through the use of sub-modeling techniques and procedures automation. The use of such techniques made such an application viable by keeping the computational costs involved at a moderate level. The proposed procedures were demonstrated using the Trezói Railway Bridge, located on the Beira Alta line, Portugal, built shortly after the Second World War. The proposed set of procedures allowed, through finite elements analysis, to obtain the relevant stresses to perform local fatigue damage analysis. A global structural model was constructed, using beam elements, and local models of a critical node were built with solid finite elements. The structure is analyzed under the passage of regulatory trains. The details of the modeling performed and the computation of the principal stresses in the vicinity of a node and the tangential/circumferential stresses at the holes of two critical riveted connections of that node are analyzed and a fatigue damage analysis is carried out. Findings In the proposed submodelling approach, disassembling the complex riveted nodes into riveted subasse
ISSN:1757-9864
1757-9872
DOI:10.1108/IJSI-07-2017-0047