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Buckling behavior of UHPC filled stainless steel tubular columns subjected to eccentric compression

Bing-Lin Lai, Yi-Ran Li, Guo-Yu Wang, Ze Mo, Dr.-Ing. Martin Mensinger, Sheng-Gang Fan

2025Construction and Building Materials6 citationsDOIOpen Access PDF

Abstract

Ultra-high Performance Concrete (UHPC) filled stainless steel tubular (UHPCFSST) column is a new type of concrete filled steel tubular (CFST) composite columns prospective to be adopted in offshore construction. As a follow-up work of previous study focusing on concentric behavior and interfacial properties, this paper delves into the eccentric compressive behaviour of UHPCFSST columns through experimental investigation and analytical derivation. A total of 10 UHPCFSST column specimens varying in slenderness ratio, tube diameter-to-thickness ratio and load eccentricity ratio were tested to explore the load-deformation response, damage pattern, stiffness, ductility and load-carrying capacity under eccentric compressive loading. Moreover, in-depth analysis was conducted to provide deep insight into the composite action between stainless steel tube and UHPC. To promote the application of UHPCFSST columns in practice, current international design codes of conventional CFST columns were comparatively reviewed for the prediction of axial force-bending moment (N-M) interaction diagram. In view of the limitation of current methods, an improved approach with consideration of confinement effect and UHPC tensile strength was proposed to assist the design of UHPCFSST columns. • UHPCFSST columns were tested under eccentric compressive loading. • The failure mode and performance indexes of UHPCFSST columns were analyzed. • The interaction between stainless steel and UHPC were discussed. • The prediction formulae of N-M curve were proposed.

Topics & Concepts

Materials scienceEccentricity (behavior)Ductility (Earth science)BucklingStructural engineeringUltimate tensile strengthConcentricComposite numberComposite materialCompression (physics)Failure mode and effects analysisCompressive strengthEccentricColumn (typography)Tube (container)TearingFailure mechanismWork (physics)Ultimate loadMoment (physics)Beam (structure)Bearing capacityStructural Load-Bearing AnalysisStructural Integrity and Reliability AnalysisStructural Behavior of Reinforced Concrete