• Title/Summary/Keyword: steel tube-reinforced concrete column structure

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An Experimental Study on Concrete Filled Steel Tube Column of Mock-up test take advantage of the High Strength Concerete(over the 80MPa) (초고강도 콘크리트(800kgf/$\textrm{cm}^2$ 이상)를 이용한 콘크리트충전 강관기둥에 대한 실물대 실험)

  • 이장환;공민호;전판근;정근호;이영도;정상진
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2004.05a
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    • pp.21-25
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    • 2004
  • The column for Steel Framed Reinforced Concrete Structure (SFRCS) and the column for Reinforced Concrete Structure (RCS) could be the most common building structure. The increasing of the need for massive space hasaffected the size of building components for supporting the massive structure. However, the changing of components size makes inefficient space of building. Hence, to meet the need for acquiring efficient space comparing the budget and cost the new structure method, Concrete Filled Tube Steel (CFT), was developed. CFT is the structure for which steel tube instead of other materials such as wood for holding concrete is used. The most benefit of this one is to help in reducing the size of the building components and local buckling because of tube steel holding concrete. For this reason, this research will examine the probability of applying CFT on construction sites by using the concrete (800kgf/$\textrm{cm}^2$) especially for CFT through the data from the real size mock-up.

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Seismic behaviors of ring beams joints of steel tube-reinforced concrete column structure

  • Zhang, Yingying;Pei, Jianing;Huang, Yuan;Lei, Ke;Song, Jie;Zhang, Qilin
    • Steel and Composite Structures
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    • v.27 no.4
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    • pp.417-426
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    • 2018
  • This paper presents the seismic behaviors and restoring force model of ring beam joints of steel tube-reinforced concrete column structure under cyclic loading. First, the main failure mode, ultimate bearing capacity, stiffness degradation and energy dissipation capacity are studied. Then, the effects of concrete grade, steel grade, reinforcement ratio and radius-to-width ratios are discussed. Finally, the restoring force model is proposed. Results show that the ring beam joints of steel tube-reinforced concrete column structure performs good seismic performances. With concrete grade increasing, the ultimate bearing capacity and energy dissipation capacity increase, while the stiffness degradation rates increases slightly. When the radius-width ratio is 2, with reinforcement ratio increasing, the ultimate bearing capacity decreases. However, when the radius-to-width ratios are 3, with reinforcement ratio increasing, the ultimate bearing capacity increases. With radius-to-width ratios increasing, the ultimate bearing capacity decreases slightly and the stiffness degradation rate increases, but the energy dissipation capacity increases slightly.

An Experimental Study on the Mock-up test take advantage of the High Strength Concrete (초고강도 콘크리트를 이용한 CFT실물대 실험)

  • Son Young Jun;Kim Jae Eun;Yang Dong Il;Jung Keun Ho;Lim Nam Gi;Jung Sang Jin
    • Proceedings of the Korea Concrete Institute Conference
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    • 2004.05a
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    • pp.458-461
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    • 2004
  • The column for Steel Framed Reinforced Concrete Structure (SFRCS) and the column for Reinforced Concrete Structure (RCS) could be the most common building structure. The increasing of the need for massive space hasaffected the size of building components for supporting the massive structure. However, the changing of components size makes inefficient space of building. Hence. to meet the need for acquiring efficient space comparing the budget and cost the new structure method, Concrete Filled Tube Steel (CFT), was developed. CFT is the structure for which steel tube instead of other materials such as wood for holding concrete is used. The most benefit of this one is to help in reducing the size of the building components and local buckling because of tube steel holding concrete. For this reason, this research will examine the probability of applying CFT on construction sites by using the concrete $(800kg/cm^2)$ especially for CFT through the data from the real size mock-up.

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The Experimental study on the behavior of precast Girder-Infilled Steel Tube Column joint (프리캐스트 보와 충전형 강관 기둥 접합부의 거동에 관한 실험적 연구)

  • 정재우;박성무
    • Proceedings of the Korea Concrete Institute Conference
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    • 1995.10a
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    • pp.317-322
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    • 1995
  • This study is to examine the usefulness in using precast girder-infilled steel tube column in reinforced concrete structures through the analysis of the test results, in order to develope the new composite structural system using precast girder-Infilled steel tube column, The variables of specimen are strength of concrete, the numble of hoops, the form of beam-column The variables of specimen are strength of concrete, the number of hoops, the form of beam-column joints. By raising strength of concrete and incresing number of hoops in beam-column joint, it becomes clear to take similar structure capacity to monolithic structures.

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Seismic behavior of SFRC shear wall with CFST columns

  • Gao, Dan-Ying;You, Pei-Bo;Zhang, Li-Juan;Yan, Huan-Huan
    • Steel and Composite Structures
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    • v.28 no.5
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    • pp.527-539
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    • 2018
  • The use of reinforced concrete (RC) shear wall with concrete filled steel tube (CFST) columns and steel fiber reinforced concrete (SFRC) shear wall has aroused widespread attention in recent years. A new shear wall, named SFRC shear wall with CFST columns, is proposed in this paper, which makes use of CFST column and SFRC shear wall. Six SFRC shear wall with CFST columns specimens were tested under cyclic loading. The effects of test parameters including steel fiber volume fraction and concrete strength on the failure mode, strength, ductility, rigidity and dissipated energy of shear wall specimens were investigated. The results showed that all tested shear wall specimens exhibited a distinct shear failure mode. Steel fibers could effectively control the crack width and improve the distribution of cracks. The load carrying and energy dissipation capacities of specimens increased with the increase of steel fiber volume fraction and concrete strength, whilst the ductility of specimens increased with the increase of steel fiber volume fraction and the decrease of concrete strength.

Experimental Study for Confined Concrete of Double Skinned Composite Tubular Columns by Uniaxial Compression Test (일축 압축 실험을 통한 DSCT 부재의 구속 콘크리트에 대한 실험적 연구)

  • Lee, Jeong-Hwa;Han, Sang-Yun;Won, Deok-Hee;Kang, Young-Jong
    • Journal of the Korean Society for Advanced Composite Structures
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    • v.4 no.3
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    • pp.13-21
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    • 2013
  • In this study, uniaxial compression tests were performed to investigates the stress-strain relations of Double Skinned Composite Tubular Columns reinforced with steel tube. The confined concrete has been known as the strength of concrete increases significantly. Specimens reinforced with outer and inner steel tube were tested by uniaxial compression test. To investigate the influence of concrete strength increase by confining conditions in steel tubes, 8 specimens with different thickness of tube, hollowness ratio and concrete strength were tested and compared with other researcher's concrete material model.

TORANOMON HILLS - Super High-Rise Building on Urban Highway -

  • Hitomi, Yasuyoshi;Takahashi, Hiroshi;Karasaki, Hidenori
    • International Journal of High-Rise Buildings
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    • v.3 no.3
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    • pp.167-171
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    • 2014
  • TORANOMON HILLS is the main building of a large-scale re-development project located in the center of Tokyo. This high-rise building has a height of 247 m and 52 floors above ground, 5 floors below ground, and $62m{\times}80m$ in plan. It is used as hotel, residential facilities, offices, shops and conference facilities. The super structure is mainly a rigid steel frame with response-control devices, using concrete-filled steel tube columns. The underground section is a mixed structure composed of steel, steel-reinforced concrete and reinforced concrete framings. The piled-raft foundation type is used. The remarkable feature of this high-rise building is that the motorway runs through the basements of the building, which makes it stand just above the motorway. This condition is an important factor of the building design. The plan shape is designed to fit along the curve of the motorway. Special columns at the corners are required to avoid placing columns in the motorway. This special column is a single inclined column in the lower floors that branches into two columns in the mid-floors to suit the column location in the upper floors. The cast steel joint is used for the branching point of each special column to securely transfer the stress.

Study on strength of reinforced concrete filled circular steel tubular columns

  • Hua, Wei;Wang, Hai-Jun;Hasegawa, Akira;Shioi, Yukitake;Iwasaki, Shoji;Miyamoto, Yutaka
    • Structural Engineering and Mechanics
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    • v.19 no.6
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    • pp.653-677
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    • 2005
  • Concrete filled steel tubular columns (CFT) are widely used in civil engineering works, especially in large scale of works because of high strength, deformation, toughness and so on. On the other hand, as a kind of strengthening measure for seriously damaged reinforced concrete piers of viaduct in Hansin-Awaji earthquake of Japan in 1995, reinforced concrete piers were wrapped with steel plate. Then, a new kind of structure appeared, that is, reinforced concrete filled steel tubular column (RCFT). In this paper, compression test and bending-shearing test on RCFT are carried out. The main parameters of experiments are (1) strength of concrete, (2) steel tube with or without rib, (3) width-thickness ratio and (4) arrangement of reinforcing bars. According to the experimental results, the effect of parameters on mechanical characteristics of RCFT is analyzed clearly. At the same time, strength evaluation formula for RCFT column is proposed and tested by experimental results and existed recommendations (AIJ 1997). The strength calculated by the proposal formula is in good agreement with test result. As a result, the proposed evaluation formula can evaluate the strength of RCFT column properly.

Seismic experiment and analysis of rectangular bottom strengthened steel-concrete composite columns

  • Hui, Cun;Zhu, Yanzhi;Cao, Wanlin;Wang, Yuanqing
    • Steel and Composite Structures
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    • v.20 no.3
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    • pp.599-621
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    • 2016
  • In order to study the working mechanism of rectangular steel-concrete composite columns subjected to compression-bending load and further determine the seismic performance index, a bottom strengthened rectangular steel reinforced concrete (SRC) column with concealed steel plates and a bottom strengthened rectangular concrete filled steel tube (CFST) columns were proposed. Six column models with different configurations were tested under horizontal low cyclic loading. Based on the experiments, the load-bearing capacity, stiffness and degradation process, ductility, hysteretic energy dissipation capacity, and failure characteristics of the models were analyzed. The load-bearing capacity calculation formulas for a normal section and an oblique section of bottom strengthened rectangular steel-concrete composite columns were pesented and a finite element (FE) numerical simulation of the classical specimens was performed. The study shows that the load-bearing capacity, ductility, and seismic energy dissipation capacity of the bottom strengthened rectangular steel-concrete composite columns are significantly improved compared to the conventional rectangular steel-concrete composite columns and the results obtained from the calculation and the FE numerical simulation are in good agreement with those from the experiments. The rectangular steel-concrete composite column with bottom strengthened shows better seismic behavior and higher energy dissipation capacity under suitable constructional requirements and it can be applied to the structure design of high-rise buildings.

Nonlinear Analysis of the Connections with Reinforced Concrete Column and Steel Beam using Finite Element Method (유한요소법을 이용한 혼합구조 접합부의 비선형 해석)

  • Hong, Seong-Hoon;Ryu, Cheon;Lee, Li-Hyung
    • Journal of the Computational Structural Engineering Institute of Korea
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    • v.12 no.3
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    • pp.363-370
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    • 1999
  • This study presented an modeling method for the connections in mixed structure with reinforced concrete columns and steel beam using finite element method. The contacting surfaces between concrete and steel are modeled using master-slave contact algorithm and the incompatible mode elements were used in the steel tube subjected to bending. The characteristics of mixed structure was that diaphragm was used for transferring force from beam to column. The three dimensional nonlinear analysis was performed and the analytical results compared with experimental results in order to prove modeling method.

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