Behaviour and design of circular hollow section steel columns strengthened by infilling concrete under preload
Yuan, H. X. and Du, X. X. and Shokouhian, M. and Ye, J. and Schafer, B. W. (2019) Behaviour and design of circular hollow section steel columns strengthened by infilling concrete under preload. Journal of Constructional Steel Research, 159. pp. 415-427. ISSN 0143-974X (https://doi.org/10.1016/j.jcsr.2019.05.001)
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Abstract
The objective of this work is to develop design guidance for existing hollow steel columns that are retrofitted by infilling concrete into the tubes. The primary challenge is the unknown effect of the existing preload on the steel columns prior to the concrete infill. Composite performance and buckling behaviour of circular hollow section (CHS)steel columns strengthened by infilling concrete under preload was experimentally and numerically investigated in this study. A total of 34 CHS steel columns were tested under pin-ended boundary conditions, and the overall buckling failure modes and corresponding ultimate buckling resistances were recorded. Prior to the member testing, material properties of the steel columns and the infilled concrete were attained. By means of the finite element (FE)software package ABAQUS, elaborate FE models for the CHS columns strengthened by infilling concrete were developed and validated against the obtained test results, which were further verified with other available test data. Using the validated FE models, systematic parametric studies were conducted to examine the influences of the major factors affecting the ultimate capacities of the CHS columns strengthened by infilling concrete, including preload ratios, steel and concrete strengths, steel ratios, initial global imperfections, eccentricity ratios and column slenderness ratios. The obtained test and numerical results were therefore utilised to develop design criteria for predicting the overall buckling resistance of CHS steel columns strengthened by infilling concrete. In view of the difficulty of determining the key parameters in practice and the uncertainty of the strengthening process, a new simplified design coefficient was proposed, taking into account the influence of the preload. It has been demonstrated that accurate and reasonable strength predictions can be provided by the proposed design method.
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Item type: Article ID code: 81086 Dates: DateEvent31 August 2019Published16 May 2019Published Online2 May 2019AcceptedSubjects: Technology > Engineering (General). Civil engineering (General) > Engineering design Department: Faculty of Engineering > Civil and Environmental Engineering Depositing user: Pure Administrator Date deposited: 14 Jun 2022 09:30 Last modified: 11 Nov 2024 13:31 URI: https://strathprints.strath.ac.uk/id/eprint/81086