Behaviour of steel tubular members infilled with ultra high strength concrete: Fid-Bau Portal

Behaviour of steel tubular members infilled with ultra high strength concrete

Xiong, Ming-Xiang / Xiong, De-Xin / Liew, J.Y. Richard

AbstractThis study is motivated by increasingly prevalent use of high strength steel and concrete materials in high-rise buildings to achieve better structural performance with less material usage. Previous studies and many modern design codes place some limits on the strength of steel and concrete for designing steel-concrete composite members, attributed to insufficient test data and design experience on their applications in construction. With this research gap being identified, an experimental program has been carried out to investigate the composite behaviour of concrete filled steel tubes (CFST) employing high tensile strength steel (HTS) and ultra-high strength concrete (UHSC). Both concentric and eccentric compression loads were applied to evaluate the overall buckling resistances and moment-axial force interaction with second-order effect considered. The yield strength of HTS under the investigation was about 800N/mm² and the concrete compressive cylinder strength was up to 200N/mm². To examine the test results, the rotational stiffness of semi-rigid end supports was analytically derived and the stress-strain models of HTS and UHSC were properly calibrated to predict the composite behaviour through finite element analysis. The Eurocode 4 approach was then checked regarding its applicability to the said high- and ultra-high strength construction materials for composite design. A new database including 1160 test data was established to further study the reliability of the use of HTS and UHSC, and suggestions were made to extend the Eurocode 4 design approach.

Highlights•New tests to study composite behaviour of CFSTs made of high tensile steel (S700) and ultra-high strength concrete (C200).•Compression buckling resistances and moment-axial compression force interaction with second-order effect are considered.•EC4 design method was checked regarding its applicability to concrete filled tubes with high strength steel and concrete.•New database to further study the reliability of EC4 method and suggestions to extend the EC4 design approach.