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Flexural performance of seawater sea sand concrete composite beams enhanced by dual-functional C-FRCM jackets

Feng, Ran; Hou, Linbing; Wang, Fangying; Thermou, Georgia; Xu, Ying; Zhu, Ji-Hua

Authors

Ran Feng

Linbing Hou

Fangying Wang

Profile image of GEORGIA THERMOU

Dr GEORGIA THERMOU GEORGIA.THERMOU@NOTTINGHAM.AC.UK
ASSISTANT PROFESSOR IN STRUCTURAL ENGINEERING

Ying Xu

Ji-Hua Zhu



Abstract

The flexural performance of seawater sea sand concrete (SSC) composite beams enhanced by the dual-functional carbon-fabric reinforced cementitious matrix (C-FRCM) jackets was experimentally investigated. Five SSC composite beams were constructed and tested in flexure under four-point loading, including one control specimen, one C-FRCM enhanced beam without the presence of the impressed current cathodic protection (ICCP) system, and three C-FRCM jacketed beams implementing the ICCP system (three different current densities: 25, 75 and 125 mA/m2). The failure modes observed and the performance of the strengthened beams with the dual-functional C-FRCM jackets were discussed in details. The results indicated that the C-FRCM jacketing effectively increased the cracking load up to 46.43 % and delayed yielding. The C-FRCM jacket had a relatively small impact on the initial stiffness of the specimens but significantly increased the load-carrying capacity (up to 18 %) and improved ductility. With the increase in current density, the load-carrying capacity gradually decreased, the crack inhibitory effect gradually weakened, but the ductility coefficient increased notably (up to 98 %). Regarding the failure modes of the composite beams, both fiber fracture and fiber slippage coexisted, and with the increase of current density, the latter became more predominant. Based on the design guidelines provided by ACI 549.4R-13, an analytical formula for bending moment was proposed and compared with the experimental results, providing a reference for the design of such components.

Citation

Feng, R., Hou, L., Wang, F., Thermou, G., Xu, Y., & Zhu, J.-H. (2024). Flexural performance of seawater sea sand concrete composite beams enhanced by dual-functional C-FRCM jackets. Journal of Building Engineering, 95, Article 110252. https://doi.org/10.1016/j.jobe.2024.110252

Journal Article Type Article
Acceptance Date Jul 21, 2024
Online Publication Date Oct 15, 2024
Publication Date 2024-10
Deposit Date Jul 22, 2024
Publicly Available Date Oct 16, 2025
Journal Journal of Building Engineering
Electronic ISSN 2352-7102
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 95
Article Number 110252
DOI https://doi.org/10.1016/j.jobe.2024.110252
Public URL https://nottingham-repository.worktribe.com/output/37468266