Experimental Study of Short Columns Bearing Capacity Subjected to Uniaxial Loading
Keywords:
Short columns, uniaxial loading, clear cover, bar size, tension and deflection sensorsAbstract
Columns can be defined as individuals that carry loads mainly in compression. Frequently, columns carry bending moments as properly, about one or each axis of the cross section. The bending moment action may produce tensile stresses over a part of the cross section. In this research, twenty-four column samples distributed into eight groups were cast to investigate the structural behavior under loading with varying bar diameter, clear cover of vertical reinforcement and concrete strength. Samples designed to fail by tension. The loading rate was set to be from fifteen to twenty percent of designed capacity. The results showed that increasing concrete strength leads to increase in bearing capacity, the load that needs to cause the first crack and decreasing in crack width. Increasing steel bars size showed rising in a column bearing capacity, the load that needs to occur the first crack, crack width and decreasing the number of cracks in tension area. While the large concrete cover caused increasing in bearing capacity, the crack width and reduce the load that needs to produce the first crack.
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References
Arthur H. Nilson, David Darwin, Charles W. Dolan,2010, DESIGN of CONCRETE STRUCTURES, Fourteenth Edition, Tata McGraw-Hill Publishing Company Limited.
Jacek Tejchman, Jerzy Bobi´nski, 2013, Continuous and Discontinuous Modelling of Fracture in Concrete Using FEM, Springer Series in Geomechanics and Geoengineering.
S. Unnikrishna Pillai, Devdas Menon, 2005, Reinforced concrete design 3rd edition, Tata McGraw-Hill Publishing Company Limited.
Song Y. F., Li Sh. Y., sept 1993, Calculation of load-bearing capacity of short column of high strength concrete, Journal of Dalian university of Technology, vol. 33.
Furlong, R.W., (1967), Strength of steel-encased concrete beam -columns, J. Struct. Div., ASCE, 93(10), 113-124.
Furlong, R.W., (1979), Concrete columns under biaxial eccentric thrust, ACI J. Proc., 76, 1093-1118.
Dundar, C., Tokgoz S., Tanrikulu A.K., Baran T., (2008), Behavior of reinforced and concrete-encased composite columns subjected to biaxial bending and axial load, Build. Environ. 43(6), 1109-1120.
Paul O. A., Chinwuba A. and Isaac I. A, June-2014, Significance of Concrete Cover to Reinforcement in Structural Element at Varying Temperatures, International Journal of Scientific & Engineering Research, Volume 5, Issue 6, ISSN 2229-5518.
Khaldoun N. Rahal, April 2006, Shear Behavior of Reinforced Concrete Beams with Variable Thickness of Concrete Side Cover, ACI Structural Journal, V.103, No. 2.
Khaldoun N. Rahal and Michael P. Collins, May-June 1995, Effect of Thickness of Concrete Cover on Shear-Torsion Interaction-An Experimental Investigation, ACI Structural Journal, V. 92, No.3.
Gilbert, J. A, C. L. Carmen, June 2000, Mechanics of Materials Laboratory Manual Chapter 8 – Flexure Test, MAE/CE 370.
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Copyright (c) 2016 Assim Mohammed Lateef
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