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International Journal of Steel Structures

Erschienen in:

28.03.2024

Experimental and Numerical Analysis on Bending Behavior of Hybrid Bridge Deck System Composed of Transversely Connected OSD and Composite Deck

verfasst von: Changyuan Dai, Qingtian Su, Changyu Shao, Chunlei Zhang

Erschienen in: International Journal of Steel Structures | Ausgabe 2/2024

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Abstract

The outer lanes and emergency lanes of the bridge deck of long-span bridges in which orthotropic steel deck is adopted were replaced with Ultra-High-Performance-Concrete (UHPC) composite deck to create a hybrid bridge deck system. A transverse connection detail was proposed to connect the two different bridge deck forms. Static bending tests and theoretical analysis were conducted on the transverse connection detail to obtain failure modes, ultimate load-carrying capacity, crack resistance, and the collaborative bending performance under positive and negative moments. A calculation method for the ultimate load-carrying capacity considering residual stresses in the UHPC after cracking was provided. The results show that the transverse connection detail has good plastic deformation capacity and collaboratively supports both sides of the bridge deck. The error in predicting the ultimate load-carrying capacity of specimens under positive bending moments using the proposed theoretical calculation method is 3.9%, and for specimens under negative bending moments, the load-carrying capacity is controlled by local buckling of the steel, with a 3.1% difference between theoretical and measured values.

Vorheriger Artikel Study on Detailing of Structural Steel Section on Lateral Behavior of SRC-RC Transfer Columns

Nächster Artikel Impact resistance and damage assessment of steel beams with different web openings

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Titel: Experimental and Numerical Analysis on Bending Behavior of Hybrid Bridge Deck System Composed of Transversely Connected OSD and Composite Deck
verfasst von: Changyuan Dai
Qingtian Su
Changyu Shao
Chunlei Zhang
Publikationsdatum: 28.03.2024
Verlag: Springer Netherlands
Erschienen in: International Journal of Steel Structures / Ausgabe 2/2024
Print ISSN: 1598-2351
Elektronische ISSN: 2093-6311
DOI: https://doi.org/10.1007/s13296-024-00823-w

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