You are in:Home/Publications/Structural Behavior of Fiber Reinforced Concrete Filled Steel Box Columns”, APSEC-ICCER 2012, 8th Asia Pacific Structural Eng. & Construction Conference and 1st International Conference on Civil Eng. Research, Surabaya, Indonesia, pp165-171, ISBN 978-983-44826-3-3

Prof. Ibrahim Galal Ibrahim Shaaban :: Publications:

Title:
Structural Behavior of Fiber Reinforced Concrete Filled Steel Box Columns”, APSEC-ICCER 2012, 8th Asia Pacific Structural Eng. & Construction Conference and 1st International Conference on Civil Eng. Research, Surabaya, Indonesia, pp165-171, ISBN 978-983-44826-3-3
Authors: Abdullah, S., Eltobgy, H., and Shaaban, I
Year: 2012
Keywords: Composite columns; finite element; steel fibers
Journal: APSEC-ICCER 2012, 8th Asia Pacific Structural Eng. & Construction Conference and 1st International Conference on Civil Eng. Research
Volume: Not Available
Issue: ISBN 978-983-44826-3-3
Pages: pp165-171
Publisher: APSEC-ICCER 2012
Local/International: International
Paper Link: Not Available
Full paper Ibrahim Galal Ibrahim Shaaban_Structural Behavior of Fiber Reinforced Concrete Filled Steel Box Columns10-2012.pdf
Supplementary materials Not Available
Abstract:

Concrete filled steel box columns have been extensively used in modern structures and tall buildings due to the enhanced performance of these columns specially the strength and ductility enhancements. The present study will take a further step in that direction through adding additional enhancements and investigating the steel fiber reinforced concrete filled steel box columns. The study will prove that the behavior of these columns will result in enhanced performance comparable to the conventionally concrete filled steel box columns which may cause a reduction in the column size and can consequently contribute to significant economic benefits. A nonlinear finite element model using ANSYS program has been developed in order to investigate the structural behavior of the inspected columns. The results obtained from that model have been compared with those calculated using Euro code (EC4), AISC/LRFD (2005) and the Egyptian Code of Practice for Steel Construction (ECPSC/LRFD 2007). The comparison indicated that the results of the model have been evaluated to an acceptable limit of accuracy. A parametric study was carried out to investigate the effect of wall thickness, length of column and percentage of steel fiber in concrete on the ultimate strength of composite columns. Confinement of the concrete core provided by the steel case was also involved. Width-to-column wall thickness ratios between 20 B/t 40, the length-to-column width ratios of 8 L/B 30, and the internal concrete of nominal unconfined cylinder strength of 30 MPa with steel fiber percentage up to 4% were investigated. It can be concluded from the results that an increase in compressive strength and flexural strength up to 10 % may be gained. It can moreover, be easily demonstrated that the proposed method is the most effective in enhancing the ductility capacity and reducing the construction cost.

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