Experimental Investigation on the Vertical Ductility of Rectangular CFST Columns Loaded Axially

Grzeszykowski, B.; Szmigiera, Elżbieta

doi:10.3390/ma15062231

Cited by 5 publications

(5 citation statements)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…However, the bending stiffness in the corner was large, and the deformation was small. Under the action of mutually perpendicular tension, strong constraints were formed on the core concrete along the diagonal direction [15,16]. At the same time, the above test phenomena revealed that the local bulge deformation of the specimen occurred mainly on the outside of the shaped steel tube.…”

Section: Bearing Mechanismmentioning

confidence: 84%

“…However, the bending stiffness in the corner was large, and the deformation was small. Under the action of mutually perpendicular tension, strong constraints were formed on the core concrete along the diagonal direction [15,16]. Core concrete can be divided into effectively confined and ineffectively confined areas due to stirrups' restraint effects on core concrete.…”

Section: Bearing Mechanismmentioning

confidence: 99%

See 1 more Smart Citation

Experimental Investigation of Special-Shaped Concrete-Filled Square Steel Tube Composite Columns with Steel Hoops under Axial Loads

2022

View full text Add to dashboard Cite

Special-shaped concrete-filled steel tube (SS-CFST) columns can be embedded in the wall, thus preventing the columns from protruding. This feature makes it popular in steel residential buildings. This paper proposes a new special-shaped concrete-filled square steel tube (SS-CFSST) composite column composed of multiple square steel tubes connected by steel hoops to form L-, T- or cross-shaped sections. Eight specimens were tested under axial loads with section shape, construction method, slenderness ratio, steel tube thickness, and steel strength as variation parameters. The structural performance, such as failure modes, peak load, load–displacement curves, load–strain curves, and Poisson’s ratio of the steel tubes, were analyzed. The tests illustrated that the failure modes of hoop-type specimens and weld-type stub columns were mainly the local buckling of steel tubes and bending failure, and those of the weld-type slender columns were mainly overall bending failure. The load-carrying capacity of the hoop-type specimen was higher than that of the weld-type specimen with the same cross-sectional dimensions and slenderness ratio. Next, the stress–strain relationship model of core concrete in the SS-CFSST composite column was established by considering the restraint effect of the connection coincidence area of steel tubes and steel hoops on concrete. Additionally, the finite element model (FEM) of the column was established using this constitutive model. By comparing the failure modes, load–strain curves and bearing capacities obtained from the tests and FEM, the established FEM can accurately evaluate the mechanical properties of SS-CFSST composite columns with steel hoops under axial compression.

show abstract

Section: Bearing Mechanismmentioning

confidence: 84%

“…However, the bending stiffness in the corner was large, and the deformation was small. Under the action of mutually perpendicular tension, strong constraints were formed on the core concrete along the diagonal direction [15,16]. Core concrete can be divided into effectively confined and ineffectively confined areas due to stirrups' restraint effects on core concrete.…”

Section: Bearing Mechanismmentioning

confidence: 99%

Experimental Investigation of Special-Shaped Concrete-Filled Square Steel Tube Composite Columns with Steel Hoops under Axial Loads

2022

View full text Add to dashboard Cite

show abstract

“…At the present time, many numerical and experimental works (Alatshan et al [4], Chepurnenko et al [5], Grzeszykowski and Szmigiera [6], Florence and Senthil [7], Zhen et al [8]) are devoted to the topic of columns having hollow profiles filled with concrete. Storozhenko et al [9] performed experiments on high-strength composite columns subjected to eccentric loading.…”

Section: Introductionmentioning

confidence: 99%

Stability of Steel Columns with Concrete-Filled Thin-Walled Rectangular Profiles

Kvocak,

Kanishchev,

Platko

et al. 2023

Sustainability

View full text Add to dashboard Cite

This paper provides a numerical and experimental analysis of global stability of axially compressed columns made of thin-walled rectangular concrete-filled steel tubes (CFSTs), with the consideration of initial geometric imperfections. The presented work introduces the theory of stability and strength of composite structural members subjected to axial compressive force. Moreover, a numerical calculation method for the determination of column resistance under axial load is presented, taking into account the influence of second-order effects that are considered in the European standard for the design of such members. This paper also presents the method of creating 3D models using the ABAQUS software, numerical analysis, and comparison of the obtained numerical results with experimental tests. In addition to the actual boundary and load conditions, the real properties of the used materials were also taken into account during the creation of 3D models. The actual properties of the used materials were obtained experimentally. Based on the obtained results and their comparison, several new findings and proven facts about the design and assessment of axially compressed columns made of thin-walled rectangular steel tubes filled with concrete are presented in the conclusions of the paper.

show abstract

“…Concrete-filled steel tube (CFST) columns have been widely used in heavy-duty structures or underground structures in recent decades, such as high-speed railway passenger stations, subways, and other underground structures [ 1 , 2 , 3 ]. The composition effect between the steel tube and infilled concrete in CFST columns enhances the axial strength and deformation performances.…”

Section: Introductionmentioning

confidence: 99%

Research on Confinement Effect of the Outer Steel Tube in Notched Square CFST Columns

Ding

et al. 2022

Materials

View full text Add to dashboard Cite

The outer steel tube in a concrete-filled steel tubular (CFST) column confines the core concrete and improves the compressive strength of the core concrete. When there is a notch damage in the tube, the confinement effect may be affected. The confinement effects of the notched steel tube in rectangular CFST columns were systematically investigated by using numerical approaches. Refined three-dimensional finite element models with advanced concrete constitutive relations were established. With the verified finite element modeling method, full-sized square CFST columns with horizontal, vertical, or diagonal notches at different locations of the steel tube were simulated. Stress distributions and deformation modes of the steel tube and core concrete were analyzed. Columns with a horizontal notch at the plate center location displayed a higher axial strength reduction than those with vertical notches. A parametric study was performed to investigate the influences of concrete strengths, steel strengths, steel ratios, notch length to column width ratios, and notch angles on the compressive strengths of the rectangular CFST columns. A practical design formula was proposed based on the obtained results. The proposed formula could effectively predict the influences of different notches on the confinement effect in the notched CFST columns.

show abstract

Experimental Investigation on the Vertical Ductility of Rectangular CFST Columns Loaded Axially

Cited by 5 publications

References 48 publications

Experimental Investigation of Special-Shaped Concrete-Filled Square Steel Tube Composite Columns with Steel Hoops under Axial Loads

Experimental Investigation of Special-Shaped Concrete-Filled Square Steel Tube Composite Columns with Steel Hoops under Axial Loads

Stability of Steel Columns with Concrete-Filled Thin-Walled Rectangular Profiles

Research on Confinement Effect of the Outer Steel Tube in Notched Square CFST Columns

Contact Info

Product

Resources

About