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Finite Element Modeling of Reinforced Concrete Column under Monotonic Lateral Loads
| International Journal of Computer Applications |
| Foundation of Computer Science (FCS), NY, USA |
| Volume 42 - Number 3 |
| Year of Publication: 2012 |
| Authors: Shams Al-amin, Raquib Ahsan |
10.5120/5677-6412
|
Shams Al-amin, Raquib Ahsan . Finite Element Modeling of Reinforced Concrete Column under Monotonic Lateral Loads. International Journal of Computer Applications. 42, 3 ( March 2012), 53-58. DOI=10.5120/5677-6412
Abstract
The response of reinforced concrete columns under lateral load has always been an area attracting research and practical interest. The importance of columns in building frame in terms of lateral stiffness has been subjected to growing attention in relation to soft storey phenomena and other seismic response analysis over times. Various numerical approaches has been attempted to correlate deflection with lateral load according to theories and field performance. A numerical analysis has been carried out in this study on column behavior subjected to lateral load. Cantilever columns have been modeled using finite element analysis package ANSYS considering non linear stress-strain relationship of concrete and bilinear behavior of steel. Effect of lateral reinforcement in terms of confinement has also been associated. For simplicity of analysis, only rectangular columns with single story height have been considered. The results have been compared with field experimental data. The response of load-deflection curve to change in column geometry has also been discussed. The load deflection curve found in this manner is almost linear with constant stiffness initially as suggested by ACI in the elastic zone. However stiffness gradually decreases in the plastic zone and finally tends to zero. Column response to change in column geometry is also according to the prescribed relations in ACI. Increase in stiffness has been found with decrease in height and increase in cross section. Finally the test results are compared with field experimental value where they show almost similar behavior.
References
- ANSYS. 2005. ANSYS version 10 Manual Set 2005. ANSYS Inc. , Southpointe, 275 Technology Drive, Canonsburg, PA 15317, USA.
- ASCE Task Committee on Concrete and Mesonary Structure. 1981, State of the Art Report on Finite Analysis of Reinforced Concrete, ASCE.
- American Concrete Institute. 1995. Building Code Requirements for Reinforced Concrete (ACI 318-95). Detroit.
- American Concrete Institute. 1999. Building Code Requirements for Reinforced Concrete (ACI 318-99). Detroit.
- Imran, I. and Pantazopoulou, S. 1996. Experimental study of plain concrete under triaxial stress. ACI Materials Journal, 1996. 93(6): p. 589-601.
- Cusson, D. and Paultre, P. 1995. Stress-strain model for confined high strength concrete. Journal of Structural Engineering. Vol 121, No 3, pp 468-477.
- Bathe, K. J. 1996. Finite Element Procedures, Prentice-Hall, Inc. , Upper Saddle River, New Jersey.
- Barzegar, F. and Maddipudi, S. 1997. Three-Dimensional Modeling of Concrete Structures. I: Plain Concrete. ASCE Journal of Structural Engineering, Vol. 123, No. 10, pp. 1339-1346
- Ohno, T. and Nishioka, T. 1984. An Experimental Study on Energy Absorption Capacity of Columns in Reinforced Concrete Structures. Proceedings of the JSCE, Structural Engineering/Earthquake Engineering, Vol. 1, No 2. , October pp. 137-147.
- Islam, D. S. 2004, Non Linear Finite Element Analysis of Reinforced Concrete Plates in Punching Shear, M. Sc Engineering Thesis, Bangladesh University of Engineering and Technology.
- Ahsan, M. S. 2004, Non Linear Finite Element Analysis of Reinforced Concrete Beams with Rectangular Opening', M. Sc. Engineering Thesis, Bangladesh University of Engineering and Technology.
- Ahmed, F. S. 2007. Finite Element Analysis of Reinforced Concrete Column under Lateral Load, M. Sc Engineering Thesis, Bangladesh University of Engineering and Technology.
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