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Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Experimental behavior and analysis of prestressed concrete-filled steel tube (CFT) truss girders
https://orcid.org/0000-0003-2562-0962
HighlightsConducts experimental tests on prestressed CFT truss-girders.Develops FEM models for evaluating the behavior of prestressed CFT truss-girders.Evaluates the effects of prestress level and shear span-to-depth ratio.
AbstractPrestressed concrete-filled steel tube (CFT) truss girders usually consist of CFT chords, hollow steel tube braces, and high-strength prestressing strands. This paper investigates the behavior of prestressed CFT truss girders by conducting both experimental tests and finite element analyses. Experimental tests on five prestressed CFT truss girders are first conducted. The test parameters are the prestress level and shear span-to-depth ratio. Results from the experimental tests indicate that: (i) the initial flexural stiffness and flexural strength of prestressed CFT truss girders increase as the prestress level or shear-span-to-depth ratio increases, and (ii) the failure modes of prestressed CFT truss girders are influenced by the prestress level and shear span-to-depth ratio. Finite element models, which were developed previously by the authors for CFT truss girders, are then modified to predict the behavior of prestressed CFT truss girders. Comparisons with experimental load-deformation responses indicate that the developed finite element models can reasonably predict the behavior of prestressed CFT truss girders.
Experimental behavior and analysis of prestressed concrete-filled steel tube (CFT) truss girders
https://orcid.org/0000-0003-2562-0962
HighlightsConducts experimental tests on prestressed CFT truss-girders.Develops FEM models for evaluating the behavior of prestressed CFT truss-girders.Evaluates the effects of prestress level and shear span-to-depth ratio.
AbstractPrestressed concrete-filled steel tube (CFT) truss girders usually consist of CFT chords, hollow steel tube braces, and high-strength prestressing strands. This paper investigates the behavior of prestressed CFT truss girders by conducting both experimental tests and finite element analyses. Experimental tests on five prestressed CFT truss girders are first conducted. The test parameters are the prestress level and shear span-to-depth ratio. Results from the experimental tests indicate that: (i) the initial flexural stiffness and flexural strength of prestressed CFT truss girders increase as the prestress level or shear-span-to-depth ratio increases, and (ii) the failure modes of prestressed CFT truss girders are influenced by the prestress level and shear span-to-depth ratio. Finite element models, which were developed previously by the authors for CFT truss girders, are then modified to predict the behavior of prestressed CFT truss girders. Comparisons with experimental load-deformation responses indicate that the developed finite element models can reasonably predict the behavior of prestressed CFT truss girders.
Experimental behavior and analysis of prestressed concrete-filled steel tube (CFT) truss girders
https://orcid.org/0000-0003-2562-0962
HighlightsConducts experimental tests on prestressed CFT truss-girders.Develops FEM models for evaluating the behavior of prestressed CFT truss-girders.Evaluates the effects of prestress level and shear span-to-depth ratio.
AbstractPrestressed concrete-filled steel tube (CFT) truss girders usually consist of CFT chords, hollow steel tube braces, and high-strength prestressing strands. This paper investigates the behavior of prestressed CFT truss girders by conducting both experimental tests and finite element analyses. Experimental tests on five prestressed CFT truss girders are first conducted. The test parameters are the prestress level and shear span-to-depth ratio. Results from the experimental tests indicate that: (i) the initial flexural stiffness and flexural strength of prestressed CFT truss girders increase as the prestress level or shear-span-to-depth ratio increases, and (ii) the failure modes of prestressed CFT truss girders are influenced by the prestress level and shear span-to-depth ratio. Finite element models, which were developed previously by the authors for CFT truss girders, are then modified to predict the behavior of prestressed CFT truss girders. Comparisons with experimental load-deformation responses indicate that the developed finite element models can reasonably predict the behavior of prestressed CFT truss girders.
Experimental behavior and analysis of prestressed concrete-filled steel tube (CFT) truss girders
Huang, Wenjin (Autor:in) / Lai, Zhichao (Autor:in) / Chen, Baochun (Autor:in) / Yao, Pengyu (Autor:in)
Engineering Structures ; 152 ; 607-618
13.09.2017
12 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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