This study investigates the behavior of steel-tube-reinforced concrete (STRC) column joints embedded with built-in section steel under low-cycle reversed loading. Finite element models (FEMs) of four groups of section-steel-reinforced concrete column joints were developed using ABAQUS. Based on this, FEMs were also developed for three groups of STRC column joints with built-in section steel and three groups without section steel. The mechanical behavior and working mechanisms of both joint types were analyzed in terms of failure modes, stress distributions of concrete, steel tubes, and section steel in the nodal zone under varying axial compression ratios. Additionally, their shear behavior was evaluated using the truss-arch model. Results indicate that STRC column joints with built-in section steel exhibit superior load-bearing capacity, ultimate displacement, and ductility compared to those without section steel. Their failure modes are characterized by plastic hinge formation at the beam ends. The shear capacity of joints with built-in section steel improved by 1.37 to 1.7 times.
BaiYWangSMouB, et al. (2021) Bi-directional seismic behavior of steel beam-column connections with outer annular stiffener. Engineering Structures227: 111443.
2.
ChenY (2005) The Seismic Behavior Research on SRC Beam-Column Joint Under Cyclic Loading. Hunan University.
3.
ChenQJCaiJXuG, et al. (2008) Experimental investigation into a new type of concrete-filled steel tubular column-beam joint with the discontinuous column tube in joint zone under compression. Journal of South China University of Technology36(6): 10–16.
4.
ChenQJCaiJYangP, et al. (2009) Seismic behavior of concrete filled steel tubular column-beam joints with discontinuous column tubes. China Civil Engineering Journal42(12): 33–42.
5.
DingZ-QFuXJBaiC, et al. (2017) Construction technology for profile steel and concrete-filled steel tube column. Building and Construction39(7): 1003–1004+1010.
6.
HanLHTaoZLiuW (2001) Concrete-filled steel tubular structures—Theory and practice. Journal of Fuzhou University (Natural Science Edition)29(06): 24–34.
7.
HeLZhaoYLinS (2018) Experimental study on axially compressed circular CFST columns with improved confinement effect. Journal of Constructional Steel Research140: 74–81.
8.
LeeJDManderJB (2022) Unified truss-arch model for the analysis of bending-shear interaction in reinforced concrete members members. Journal of Structural Engineering148(7): 04022074.
9.
LeeJDManderJB (2023) Verification of truss-arch model unified for RC beams with stirrups using shear database. Engineering Structures287: 116180.
10.
LiaoFYHanLHTaoZ (2014) Behaviour of composite joints with concrete encased CFST columns under cyclic loading: experiments. Engineering Structures59: 745–764.
11.
ManderJBPriestleyMJParkR (1988) Theoretical stress-strain model for confined concrete. Journal of Structural Engineering114(8): 1804–1826.
12.
MOHURD (Ministry of Housing and Urban-Rural Development of the People’s Republic of China) (2015) Code for Design of Concrete Structures. GB 50010-2010. China Architecture & Building Press.
13.
MOHURD (Ministry of Housing and Urban-Rural Development of the People’s Republic of China) (2019) Technical Standard for Steel Tube Confined Concrete Structures. JGJ/T 471-2019. China Building Industry Press.
14.
MouBLiXBaiY, et al. (2019) Shear behavior of panel zones in steel beam-to-column connections with unequal depth of outer annular stiffener. Journal of Structural Engineering145(2): 04018247.
15.
MouBLiYQiaoQ (2021) Connection behavior of CFST column-to-beam joint implanted by steel rebars under cyclic loading. Engineering Structures246: 113036.
16.
NingC (2016) Research on Axial Compression Resistance Performance of Steel-Tube Confined Reinforced Concrete Column-RC Beam Knee Joints Stiffened by Steel Rings. South China University of Technology.
17.
Ruiz-PinillaJGPallarésFJGimenezE, et al. (2014) Calderón, experimental tests on retrofitted RC beam-column joints underdesigned to seismic loads. Engineering Structures59: 702–714.
18.
TorabianSMirghaderiSRKeshavarziF (2012) Moment-connection between I-beam and built-up square column by a diagonal through plate. Journal of Constructional Steel Research70: 385–401.
19.
WangYJLiangXWLiFY, et al. (2014) Study of calculation model of reinforced concrete beam-column joint core. Industrial Construction44(9): 45–50.
20.
WangFLuoZ-FLanXY, et al. (2015) FEA on axial compression performance of circular tubular confined reinforced concrete beam-column knee joints internally stiffened with steel tube. Journal of Building Structures36(1): 367–374.
21.
WangKZhaZ-YLiuHC, et al. (2020) Shear performance analysis on composite joints connecting prestressed steel reinforced concrete beams and steel-tube reinforced concrete columns. Engineering Mechanics37(08): 89–101.
22.
WangBGaoXChenA, et al. (2024) Optimization study of strengthened T-shaped concrete-filled steel tubular (CFST) column-steel beam joint column-steel beam joint. Journal of Constructional Steel Research223: 109020.
23.
XiaoLC (2011) Static Axial Compression Behavior of Tubed RC Beam-Column Joint with High Longitudinal Reinforcement Ratio. Harbin Institute of Technology.
24.
YanB (2018) Research on the Static and Seismic Behavior of Circular Tubed RC Column to RC Beam Joints. Lanzhou University.
25.
ZhangSLiuJ (2007) Seismic behavior and strength of square tube confined reinforced-concrete (STRC) columns. Journal of Constructional Steel Research63(9): 1194–1207.
26.
ZhangDGaoSGongJ (2012) Seismic behaviour of steel beam to circular CFST column assemblies with external diaphragms. Journal of Constructional Steel Research76: 155–166.
27.
ZhaoX-ZWenFP (2018) Theoretical study on confinement mechanism and stress-strain model for steel confined concrete in SRC columns. Engineering Mechanics35(5): 36–46.
28.
ZhouXHYanBGanD, et al. (2013) Experimental research on circular tubed RC beam-column joints with horizontal haunches under axial compression. Journal of Building Structures34(S1): 59–65.
29.
ZhuangZHLiaoJH (2009) Finite Element Analysis and Application Based on ABAQUS. Tsinghua University Press.
