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Analysis of Shear Force Transfer Mechanism in Bridge Deck of SFRC-Steel Composite Girder

Zhen, Xiao Xia / Wang, Rong Hui / Rao, Rui

Based on tension-compression and bending equivalences, an equivalent single material plate is formed to substitute bridge deck of composite girder with steel fiber reinforced concrete (SFRC) and steel. Thickness and elastic modulus of the equivalent plate are then formulated. After three dimensional finite-element analyses of the bridge deck, in terms of shell element membrane effect and girder flexion-torsion theory, combined with compatibility of deformation, single material shell element stress is restored to stresses on SFRC plate and steel plate separately; shear force distribution on shear keys between SFRC and steel is analyzed.

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Analysis of Shear Force Transfer Mechanism in Bridge Deck of SFRC-Steel Composite Girder

Zhen, Xiao Xia / Wang, Rong Hui / Rao, Rui

Based on tension-compression and bending equivalences, an equivalent single material plate is formed to substitute bridge deck of composite girder with steel fiber reinforced concrete (SFRC) and steel. Thickness and elastic modulus of the equivalent plate are then formulated. After three dimensional finite-element analyses of the bridge deck, in terms of shell element membrane effect and girder flexion-torsion theory, combined with compatibility of deformation, single material shell element stress is restored to stresses on SFRC plate and steel plate separately; shear force distribution on shear keys between SFRC and steel is analyzed.

Analysis of Shear Force Transfer Mechanism in Bridge Deck of SFRC-Steel Composite Girder

Zhen, Xiao Xia / Wang, Rong Hui / Rao, Rui

Based on tension-compression and bending equivalences, an equivalent single material plate is formed to substitute bridge deck of composite girder with steel fiber reinforced concrete (SFRC) and steel. Thickness and elastic modulus of the equivalent plate are then formulated. After three dimensional finite-element analyses of the bridge deck, in terms of shell element membrane effect and girder flexion-torsion theory, combined with compatibility of deformation, single material shell element stress is restored to stresses on SFRC plate and steel plate separately; shear force distribution on shear keys between SFRC and steel is analyzed.

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Titel:

Analysis of Shear Force Transfer Mechanism in Bridge Deck of SFRC-Steel Composite Girder

Beteiligte:

Zhen, Xiao Xia / Wang, Rong Hui / Rao, Rui

Erschienen in:

Key Engineering Materials ; 400-402 ; 627-632

Erscheinungsdatum:

21.10.2008

Format / Umfang:

6 pages

ISSN:

1662-9795 , 1013-9826

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.400-402.627

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Equivalent Plate , Shear Force Distribution , Shear Force Transfer Mechanism , Steel Fibre Reinforced Concrete (SFRC) , Composite Girder , Finite Element Analysis (FEA)

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