American Journal of Applied Scientific Research

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Parametric Study on the Axial Behaviour of Concrete Filled Steel Tube (CFST) Columns

Received: 27 October 2016    Accepted: 17 December 2016    Published: 15 November 2017
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Abstract

Concrete filled steel tube (CFST) columns are widely used in civil engineering structures due to its abundant structural benefits like excellent seismic behaviour, ultimate load bearing capacity, fire resistivity, excellent ductility and energy absorption capacity, particularly in zones of high seismic risk. Due to their excellent engineering properties, CFST columns are used in buildings, bridges, electric transmission line and offshore structures. The ultimate load carrying capacity of CFST columns depends upon various parameters such as D/t ratio, steel grade, concrete grade, etc. Abaqus software is used for the finite element modelling of CFST Columns. In this study the ultimate axial load carrying capacity of CFST column is investigated by changing diameter-to-thickness (D/t) ratio, steel grade and concrete grade. Results shows that the ultimate load capacity decreases by increase in D/t ratio but increases by increase in steel grade and concrete grade.

DOI 10.11648/j.ajasr.20170304.11
Published in American Journal of Applied Scientific Research (Volume 3, Issue 4, July 2017)
Page(s) 21-25
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

CFST, Axial Behaviour, Parametric Study, Finite Element

References
[1] P. K. Gupta, S. M. Sarda and M. S. Kumar (2007), “Experimental and Computational Study of Concrete Filled Steel Tubular Columns under Axial Loads”, J. of Const. Steel Research, 182–193.
[2] N. K. Brown, M. J. Kowalsky and J. M. Nau (2015), “Impact of D/t on seismic behavior of reinforced concrete filled steel tubes”, Journal of Constructional Steel Research 107, 111–123.
[3] R. Yadav, B. Chen, Y. Huihui and Z. Lian (2016), “Numerical Study on the Seismic Behavior of CFST Columns”, 11th Pacific Structural Steel Conference, Shanghai, China, October 2931, pp. 360-369.
[4] M. Dundu (2012), “Compressive strength of circular concrete filled steel tube columns”, Thin-Walled Structures 56, 62–70.
[5] K. Nakanishi, T. Kitada, H. Nakai (1999), “Experimental study on ultimate strength and ductility of concrete filled steel columns under strong earthquake”, Journal of Constructional Steel Research 51, 297–319.
[6] M. Bruneau, and J. Marson (2004), “Seismic Design of Concrete-Filled Circular Steel Bridge Piers”, J. Bridge Eng. 9: 24-34.
[7] B. Chen, T. L. Wang, Overview of Concrete Filled Steel Tube Arch Bridges in China,Practice Periodical on Structural Design and Construction, ASCE, May 2009, 14 (2): 70-80.
[8] L. H. Han, W. Li and R. Bjorhovde (2014), “Developments and advanced applications of concrete-filled steel tubular (CFST) structures: Members”, J. of Const. Steel Research 100, 211–228.
[9] R. Yadav, B. Chen, H. Yuan and R. Adhikari (2016), “Comparative Analysis of Reinforced Concrete Buildings and Concrete Filled Steel Tube Buildings in Nepal”, International Conference on Earthquake Engineering and Post Disaster Reconstruction Planning, Nepal, pp. 70-77.
[10] China National Standard, (2010), Code for Design of Concrete Structure, GB 50010-2010, China Architecture & Building Press, Beijing, China. [In Chinese].
[11] China National Standard, (2003), Code for Design of Steel Structure, GB 50017-2003, China Architecture & Building Press, Beijing, China. [In Chinese].
[12] K. A. S. Susantha, T. Aoki and M. Hattori, (2008), “Seismic performance improvement of circular steel columns using pre-compressed concrete-filled steel tube”, J. of const. steel research, 64, 30-36.
[13] J. F. Hajjar and C. Tort, (2010), “Mixed finite-element modelling of rectangular concrete-filled Steel tube members and frames under static and dynamic loads”, Journal of Structural Engineering, ASCE, 136, 6, 654-664.
[14] Y. Xiao, Z. X. Zhang, S. K. Kunnath and P. X. Guo, (2011), “Seismic behavior of CFT column and steel pile footings”, Journal of Bridge Engineering, ASCE, 16, 5, 575-586.
[15] H. B. Ge and T. Usami, (1996), “Cyclic test of concrete filled steel box columns”, Journal of Structural Engineering, ASCE, 122, 10, 1169-1177.
[16] L. H. Han, Y. F. Yang and Z. Tao, (2003), “Concrete-filled thin-walled steel SHS and RHS beam-columns subjected to cyclic loading”, Thin Walled Structures, 41, 9, 801-833.
[17] Y. Q. Tu, Y. F. Shen, Y. G. Zeng and L. Y. Ma, (2014), “Hysteretic behavior of multi-cell T-shaped concrete-filled steel tubular columns”, Thin walled Structures, 85, 106-116.
[18] L. H. Han, H. Huang and X. L. Zhao, (2009), “Analytical behaviour of concrete-filled double skin steel tubular (CFDST) beam-columns under cyclic loading”, Thin Walled Structures 47, 6-7, 668-680.
Author Information
  • College of Civil Engineering, Fuzhou University, Fuzhou, China

  • College of Civil Engineering, Fuzhou University, Fuzhou, China

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  • APA Style

    Raghabendra Yadav, Baochun Chen. (2017). Parametric Study on the Axial Behaviour of Concrete Filled Steel Tube (CFST) Columns. American Journal of Applied Scientific Research, 3(4), 21-25. https://doi.org/10.11648/j.ajasr.20170304.11

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    ACS Style

    Raghabendra Yadav; Baochun Chen. Parametric Study on the Axial Behaviour of Concrete Filled Steel Tube (CFST) Columns. Am. J. Appl. Sci. Res. 2017, 3(4), 21-25. doi: 10.11648/j.ajasr.20170304.11

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    AMA Style

    Raghabendra Yadav, Baochun Chen. Parametric Study on the Axial Behaviour of Concrete Filled Steel Tube (CFST) Columns. Am J Appl Sci Res. 2017;3(4):21-25. doi: 10.11648/j.ajasr.20170304.11

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  • @article{10.11648/j.ajasr.20170304.11,
      author = {Raghabendra Yadav and Baochun Chen},
      title = {Parametric Study on the Axial Behaviour of Concrete Filled Steel Tube (CFST) Columns},
      journal = {American Journal of Applied Scientific Research},
      volume = {3},
      number = {4},
      pages = {21-25},
      doi = {10.11648/j.ajasr.20170304.11},
      url = {https://doi.org/10.11648/j.ajasr.20170304.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ajasr.20170304.11},
      abstract = {Concrete filled steel tube (CFST) columns are widely used in civil engineering structures due to its abundant structural benefits like excellent seismic behaviour, ultimate load bearing capacity, fire resistivity, excellent ductility and energy absorption capacity, particularly in zones of high seismic risk. Due to their excellent engineering properties, CFST columns are used in buildings, bridges, electric transmission line and offshore structures. The ultimate load carrying capacity of CFST columns depends upon various parameters such as D/t ratio, steel grade, concrete grade, etc. Abaqus software is used for the finite element modelling of CFST Columns. In this study the ultimate axial load carrying capacity of CFST column is investigated by changing diameter-to-thickness (D/t) ratio, steel grade and concrete grade. Results shows that the ultimate load capacity decreases by increase in D/t ratio but increases by increase in steel grade and concrete grade.},
     year = {2017}
    }
    

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    T1  - Parametric Study on the Axial Behaviour of Concrete Filled Steel Tube (CFST) Columns
    AU  - Raghabendra Yadav
    AU  - Baochun Chen
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    T2  - American Journal of Applied Scientific Research
    JF  - American Journal of Applied Scientific Research
    JO  - American Journal of Applied Scientific Research
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    PB  - Science Publishing Group
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    AB  - Concrete filled steel tube (CFST) columns are widely used in civil engineering structures due to its abundant structural benefits like excellent seismic behaviour, ultimate load bearing capacity, fire resistivity, excellent ductility and energy absorption capacity, particularly in zones of high seismic risk. Due to their excellent engineering properties, CFST columns are used in buildings, bridges, electric transmission line and offshore structures. The ultimate load carrying capacity of CFST columns depends upon various parameters such as D/t ratio, steel grade, concrete grade, etc. Abaqus software is used for the finite element modelling of CFST Columns. In this study the ultimate axial load carrying capacity of CFST column is investigated by changing diameter-to-thickness (D/t) ratio, steel grade and concrete grade. Results shows that the ultimate load capacity decreases by increase in D/t ratio but increases by increase in steel grade and concrete grade.
    VL  - 3
    IS  - 4
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