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Rigidity estimation of embedded CFST column-to-beam connections
HighlightsThe 3-D FEA models for CFST connections under axial and lateral cyclic load were proposed.The rigidities of the connections were studied by parametric studies.Simplified estimation equations for the rigidity of embedded CFST connections were proposed.The longitudinal strain and PEEQ of the FEA models can be used to predict the ductile tearing strain.
AbstractThis paper presents a finite element analysis (FEA) of embedded concrete-filled steel tube (CFST) column-to-beam connections subjected to combined axial-flexural loading. The proposed FEA model was verified by experimental results from previous research. The comparison and analysis show that the predicted local damages, failure patterns, and load versus displacement curves were generally in good agreement with the experimental observations. Several identified parameters were studied, including various concrete strengths, steel tube yield stresses, embedded lengths, and axial loading ratios. Based on the parametric study, provisions and methods to estimate the effective flexural stiffness of the composite columns were suggested, and simple equations to estimate the effective stiffness of the whole connection were proposed. In addition, the fracture strain captured in the cyclic loading test was greater than that captured in the uniaxial tensile test. The inelastic responses of the CFST connections can be recorded using the FEA models, and the longitudinal strain can be used to define when tube tearing will occur, while the plastic equivalent strain can be used to define where tube tearing will occur.
Rigidity estimation of embedded CFST column-to-beam connections
HighlightsThe 3-D FEA models for CFST connections under axial and lateral cyclic load were proposed.The rigidities of the connections were studied by parametric studies.Simplified estimation equations for the rigidity of embedded CFST connections were proposed.The longitudinal strain and PEEQ of the FEA models can be used to predict the ductile tearing strain.
AbstractThis paper presents a finite element analysis (FEA) of embedded concrete-filled steel tube (CFST) column-to-beam connections subjected to combined axial-flexural loading. The proposed FEA model was verified by experimental results from previous research. The comparison and analysis show that the predicted local damages, failure patterns, and load versus displacement curves were generally in good agreement with the experimental observations. Several identified parameters were studied, including various concrete strengths, steel tube yield stresses, embedded lengths, and axial loading ratios. Based on the parametric study, provisions and methods to estimate the effective flexural stiffness of the composite columns were suggested, and simple equations to estimate the effective stiffness of the whole connection were proposed. In addition, the fracture strain captured in the cyclic loading test was greater than that captured in the uniaxial tensile test. The inelastic responses of the CFST connections can be recorded using the FEA models, and the longitudinal strain can be used to define when tube tearing will occur, while the plastic equivalent strain can be used to define where tube tearing will occur.
Rigidity estimation of embedded CFST column-to-beam connections
Zhu, Haiqing (Autor:in) / Li, Ying (Autor:in) / Zhang, Xiedong (Autor:in)
Engineering Structures ; 147 ; 768-781
17.06.2017
14 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Behaviour and design of demountable CFST column-column connections under tension
| British Library Online Contents | 2017
Behaviour and design of demountable CFST column-column connections under tension
| British Library Online Contents | 2017