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A Critical Review of Cold-Formed Steel Built-Up Composite Columns with Geopolymer Concrete Infill

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Version 2 2024-08-04, 23:27
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journal contribution
posted on 2024-08-04, 23:27 authored by Serene Sara Simon, Bidur KafleBidur Kafle, Riyadh Al-AmeriRiyadh Al-Ameri
Concrete-filled built-up cold-formed steel (CFS) columns offer enhanced load-carrying capacity, improved strength-to-weight ratios, and delayed buckling through providing internal resistance and stiffness due to the concrete infill. Integrating sustainable alternatives like self-compacting geopolymer concrete (SCGC) with low carbon emissions is increasingly favoured for addressing environmental concerns in construction. This review aims to explore the current knowledge regarding CFS built-up composite columns and the performance of SCGC within them. While research on geopolymer concrete-filled steel tubes (GPCFSTs) under various loads has demonstrated high strength and ductility, investigations into built-up sections remain limited. The literature suggests that geopolymer concrete’s superior compressive strength, fire resistance, and minimal shrinkage render it highly compatible with steel tubular columns, providing robust load-bearing capacity and gradual post-ultimate strength, attributed to the confinement effect of the outer steel tubes, thereby preventing brittle failure. Additionally, in built-up sections, connector penetration depth and spacing, particularly at the ends, enhances structural performance through composite action in CFS structures. Consequently, understanding the importance of using a sustainable and superior infill like SCGC, the cross-sectional efficiency of CFS sections, and optimal shear connections in built-up CFS columns is crucial. Moreover, there is a potential for developing environmentally sustainable built-up CFS composite columns using SCGC cured at ambient temperatures as infill.

History

Journal

Journal of Composites Science

Volume

8

Article number

238

Pagination

1-18

Location

Basel, Switzerland

Open access

  • Yes

eISSN

2504-477X

Language

eng

Publication classification

C1.1 Refereed article in a scholarly journal

Issue

7

Publisher

MDPI AG

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