Ultimate Axial Strength of Concrete-Filled Double Skin Steel Tubular Column Sections
Özet
This study aims at proposing a new model for evaluating the ultimate
axial strength of concrete-filled double skin steel tubular (CFDST)
composite columns. For this, a total of 103 experimental data regarding
the ultimate strength of CFDST columns under axial loading were
collected from the previous studies in the literature. All CFDST columns
consist of two steel tubes being outer and inner circular hollow
section. The model presented herein was developed by using gene
expression programming. For this, the yield strength, diameter, and
thickness of both outer and inner steel tubes, the compressive strength
of annulus concrete, the length of the specimen, and the ultimate axial
strength of the columns were utilized as the parameters. Assessment of
the obtained results indicated that the generated model had a good
performance compared to the existing models by the previous researchers
and the equations specified in the design codes. The high value of R-2
and narrow ranged fluctuation of the estimation error for the ultimate
axial strength of the CFDST columns were also achieved through the
proposed model.
Koleksiyonlar
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