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Computers and Concrete Volume 6, Number 5, October 2009 , pages 357-376 DOI: https://doi.org/10.12989/cac.2009.6.5.357 |
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Maximum axial load level and minimum confinement for limited ductility design of high-strength concrete columns |
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J. Y. K. Lam, J. C. M. Ho and A. K. H. Kwan
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| Abstract | ||
| In the design of concrete columns, it is important to provide some nominal flexural ductility even for structures not subjected to earthquake attack. Currently, the nominal flexural ductility is provided by imposing empirical deemed-to-satisfy rules, which limit the minimum size and maximum spacing of the confining reinforcement. However, these existing empirical rules have the major shortcoming that the actual level of flexural ductility provided is not consistent, being generally lower at higher concrete strength or higher axial load level. Hence, for high-strength concrete columns subjected to high axial loads, these existing rules are unsafe. Herein, the combined effects of concrete strength, axial load level, confining pressure and longitudinal steel ratio on the flexural ductility are evaluated using nonlinear moment-curvature analysis. Based on the numerical results, a new design method that provides a consistent level of nominal flexural ductility by imposing an upper limit to the axial load level or a lower limit to the confining pressure is developed. Lastly, two formulas and one design chart for direct evaluation of the maximum axial load level and minimum confining pressure are produced. | ||
| Key Words | ||
| columns; confinement; ductility; high-strength concrete. | ||
| Address | ||
| J. Y. K. Lam: Department of Civil Engineering, The University of Hong Kong, Pokfulam, Hong Kong J. C. M. Ho: Department of Civil Engineering, The University of Hong Kong, Pokfulam, Hong Kong A. K. H. Kwan: Department of Civil Engineering, The University of Hong Kong, Pokfulam, Hong Kong | ||