Researches

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Department and Location
Research Name
THEORETICAL INVESTIGATION OF CONCRETE FILLED STEEL HOLLOW SECTION COLUMNS
Research Description
Steel concrete composite columns are widely used in high rise buildings and bridges.
Composite columns provide not only great reduction for the column size and weight, but also
high columns efficiency and ductility. In Concrete Filled Steel Tube (CFST) columns, the steel
tube provides formwork for the concrete; the concrete prevents local buckling of the steel tube.
This paper illustrates a theoretical study of the behavior of CFST columns subjected to centric
load by using ANSYS (18.1). The study divided into two parts. In the first part, the verification
of the program was done using an experimental work of previous research, this verification
showed that the capability of ANSYS program for analysis of the CFST columns with very good
accuracy. In the second part: a parametric study was carried out to study the behavior of CFST
braced, constant cross section area, centric loaded columns. The main variables were the shape
of cross section (three shapes: square, rectangular and circular) and slenderness ratio (?). The
analysis shows that the increase of the slenderness ratio led to decrease the ultimate load
capacity, stiffness and ductility of the CFST columns. The current ECP of concrete code
underestimates the values of ultimate load capacity while, ECP of steel predicts the reasonable
values for an ultimate load capacity of CFST columns.
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