Structural design of a smart under‐deck cable‐stayed prestressed concrete viaduct: Theoretical basis and application to the Osormort viaduct

Corral, María del Mar; Todisco, Leonardo

doi:10.1002/suco.202300373

Structural Concrete

2024

DOI: 10.1002/suco.202300373

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Structural design of a smart under‐deck cable‐stayed prestressed concrete viaduct: Theoretical basis and application to the Osormort viaduct

María del Mar Corral,

Leonardo Todisco

Abstract: Under‐deck cable‐stayed systems have been extensively used in bridges to optimize the internal stress distribution, enhancing their structural performance. Although these systems provide highly contribute to counteract permanent loads, their efficiency to withstand live loads is reduced, thereby limiting opportunities for material savings. This effect is particularly relevant in concrete viaducts, where the relative stiffness of the deck with respect to the tendons is very high. This limitation can be overcome… Show more

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Lateral–Torsional Buckling of Externally Prestressed I-Section Steel Beams Subjected to Fire

Mahieddine,

Ziane,

Ruta

et al. 2024

CivilEng

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We develop a new analytical and numerical approach, based on existing models, to describe the onset of lateral–torsional buckling (LTB) for simply supported thin-walled steel members. The profiles have uniform I cross-sections with variable lengths of the flanges, to describe also H cross-sections, they are prestressed by external tendons, and they are subjected to fire and various loadings. Our approach manages to update the value of the prestressing force, accounting for thermal and loads; the critical multipliers result from an eigenvalue problem obtained applying Galërkin’s approach to a system of nonlinear equilibrium equations. Our results are compared to buckling, steady state, and transient state analyses of a Finite Element Method (FEM) simulation, in which an original expression for an equivalent thermal expansion coefficient for the beam–tendon system that accounts for both mechanical and thermal strains is introduced. Our aim is to find estimates for the critical conditions with no geometric imperfections and accounting for the decay of material properties due to fire, thus providing limit values useful for conservative design. This approach can surpass others in the literature and in the existing technical norms.

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Lateral–Torsional Buckling of Externally Prestressed I-Section Steel Beams Subjected to Fire

Mahieddine,

Ziane,

Ruta

et al. 2024

CivilEng

View full text Add to dashboard Cite

show abstract

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Structural design of a smart under‐deck cable‐stayed prestressed concrete viaduct: Theoretical basis and application to the Osormort viaduct

Cited by 1 publication

References 25 publications

Lateral–Torsional Buckling of Externally Prestressed I-Section Steel Beams Subjected to Fire

Lateral–Torsional Buckling of Externally Prestressed I-Section Steel Beams Subjected to Fire

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