Abstract
The complication linked with the prediction of the ultimate capacity of concrete-filled steel tubes (CFST) short circular columns reveals a need for conducting an in-depth structural behavioral analyses of this member subjected to axial-load only. The distinguishing feature of gene expression programming (GEP) has been utilized for establishing a prediction model for the axial behavior of long CFST. The proposed equation correlates the ultimate axial capacity of long circular CFST with depth, thickness, yield strength of steel, the compressive strength of concrete and the length of the CFST, without need for conducting any expensive and laborious experiments. A comprehensive CFST short circular column under an axial load was obtained from extensive literature to build the proposed models, and subsequently implemented for verification purposes. This model consists of extensive database literature and is comprised of 227 data samples. External validations were carried out using several statistical criteria recommended by researchers. The developed GEP model demonstrated superior performance to the available design methods for AS5100.6, EC4, AISC, BS, DBJ and AIJ design codes. The proposed design equations can be reliably used for pre-design purposes—or may be used as a fast check for deterministic solutions.
Highlights
A concrete-filled steel tube (CFST), consists of a steel tube full of concrete
The equation obtained for the ultimate axial capacity of circular concrete-filled steel tubes (CFST) members is specified in Equation (6)
Where NGEP is the ultimate axial moment capacity of the column calculated from Equation (6) and fc ’ is the compressive strength of infilled concrete
Summary
A concrete-filled steel tube (CFST), consists of a steel tube full of concrete. Over the last decade, their use in the building-construction industry as a column and has increased exponentially [1,2]. The author reveals that particle swarm optimization give adamant model performance with less error These algorithms train the data to solve the desire problem and test was conducted on testing set to give results. Thesteel maximum of the outer steeloftube in values diameter,the compressive lies in the range of 73–146 mm, CFST lies inthe themaximum range of 3–5 mm.ofsimilarly, maximumstrength, values ofL/D diameter, compressive strength, L/D lies in the range of 73–146 mm, 30–50 MPa and 7 to 20, respectively 0.813 relation coefficients (both negative positive and) are not extraordinary, presentation no 1danger of
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