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Numerical investigation on compressive performance of CFST columns with encased built-up lattice-angles
AbstractThis paper presents a numerical investigation on the compressive behaviour of thin-walled concrete-filled steel tube (CFST) columns with encased built-up latticed angles. The additional confinement provided by encased angles was considered in the finite element (FE) model, in addition to the contact between tube wall and inner concrete and the effect of tube-wall confinement on concrete model. The established FE model is verified against the existing test results that it can well predict the behaviour of reinforced composite columns under axial compression. The composite action between encased angles and concrete and the efficiency of built-up angle configurations on performance improvement are extensively analyzed through the validated FE models. The influence of three parameters, namely confinement factor (ξ), reinforcement ratio (ρsr) and slenderness ratio (λ), to the angle-contributions on lateral confining pressure and the ultimate strength are evaluated and quantified. It is found the relationship between the strengths of CFST columns and built-up member can be defined as an exponential equation. Finally the design equation based on AISC 360-10 design provisions with consideration of angle-contributions is proposed, and the comparison results show it has a desirable accuracy and satisfactory correlation with both experimental and numerical results.
HighlightsA FE model for CFST columns reinforced with lattice-angles was developed and verified against test results.The additional confinement provided by encased angles was considered in the finite elements models.The influence of confinement factor, reinforcement ratio and slenderness ratio were evaluated and quantified.A new design method was developed for the thin-wallet CFST columns reinforced with lattice-angles.
Numerical investigation on compressive performance of CFST columns with encased built-up lattice-angles
AbstractThis paper presents a numerical investigation on the compressive behaviour of thin-walled concrete-filled steel tube (CFST) columns with encased built-up latticed angles. The additional confinement provided by encased angles was considered in the finite element (FE) model, in addition to the contact between tube wall and inner concrete and the effect of tube-wall confinement on concrete model. The established FE model is verified against the existing test results that it can well predict the behaviour of reinforced composite columns under axial compression. The composite action between encased angles and concrete and the efficiency of built-up angle configurations on performance improvement are extensively analyzed through the validated FE models. The influence of three parameters, namely confinement factor (ξ), reinforcement ratio (ρsr) and slenderness ratio (λ), to the angle-contributions on lateral confining pressure and the ultimate strength are evaluated and quantified. It is found the relationship between the strengths of CFST columns and built-up member can be defined as an exponential equation. Finally the design equation based on AISC 360-10 design provisions with consideration of angle-contributions is proposed, and the comparison results show it has a desirable accuracy and satisfactory correlation with both experimental and numerical results.
HighlightsA FE model for CFST columns reinforced with lattice-angles was developed and verified against test results.The additional confinement provided by encased angles was considered in the finite elements models.The influence of confinement factor, reinforcement ratio and slenderness ratio were evaluated and quantified.A new design method was developed for the thin-wallet CFST columns reinforced with lattice-angles.
Numerical investigation on compressive performance of CFST columns with encased built-up lattice-angles
Xu, Fei (author) / Chen, Ju (author) / Chan, Tak-Ming (author)
Journal of Constructional Steel Research ; 137 ; 242-253
2017-06-12
12 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2017
| British Library Online Contents | 2017
| British Library Online Contents | 2018
Compressive behavior of PET FRP-confined concrete encased CFST columns
| Elsevier | 2022