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Experimental study on flexural behaviours of fresh or aged hollow reinforced concrete girders strengthened by prestressed CFRP plates

Deng, Yu; Guo, Zhen; Zhang, Hexin; Limkatanyu, Suchart; Sukontasukkul, Piti; Yuen, Terry Y. P.; Wong, Simon H. F.; Hansapinyo, Chayanon; Adom-Asamoah, Mark; Shen, Minhe; Huang, Longting; Kuang, J. S.; Zou, Yiqing

Authors

Yu Deng

Zhen Guo

Suchart Limkatanyu

Piti Sukontasukkul

Terry Y. P. Yuen

Simon H. F. Wong

Chayanon Hansapinyo

Mark Adom-Asamoah

Longting Huang

J. S. Kuang

Yiqing Zou



Abstract

The paper presents a well-rounded experimental study on the flexural performance of Reinforced Concrete (RC) box girders strengthened with prestressed carbon fibre reinforced polymer (CFRP) plates. The motivation behind the study was twofold: the rising need for structural reinforcement of existing aged and heavily utilised hollow RC box girders, and the absence of prior attempts to integrate prestressed CFRP plate strengthening for those hollow girders. Previous experimental studies are scarce and fewer studies are focused on the combined prestress and thin-wall effects, such as prestress-related stress condensation and shear lag. However, experimental results are important in directing further analytical studies for hollow sections with more complex behaviours than solid sections since there is a need to predict the behaviour of the prestress-strengthened hollow RC structures for routine design. This pivotal experimental study aims to quantify the structural interactions initiated by prestress in hollow sections and evaluate the impact of age while promoting further analytical initiatives. In this study, two types of CFRP plates, ordinary CFRP and steel-wire-CFRP (SW-CFRP), were used on different specimen beams with varying prestressing levels, sizes of the CFRP plates, and pre-damaged states representing aged and over-used members. Their performance indexes, including cracking load, yield load, ultimate load, structural stiffness, ductility, and crack resistance, were tested and summarised in this paper. The CFRP plates of the eight specimen beams were prestressed to different levels (non-prestressed, and 30% and 40% of the CFRP plate's ultimate strength). The test results suggest that the crack load increased by 86% and 134%, when the specimens were enhanced with the combinations of 30% prestress level for the same CFRP cross-section, and 40% prestress level with a thicker CFRP plate, respectively. The flexural capacity also increased by 42% and 72%, and flexural stiffness increased by 3% and 63%, respectively. The experimental results proved that the proposed prestressed CFRP plate technology effectively strengthens the new or aged RC box girders, but the ductility is sacrificed. These first-hand test results provide an excellent target dataset for further development in the analysis and design of prestressed CFRP plate-strengthened RC box girders.

Citation

Deng, Y., Guo, Z., Zhang, H., Limkatanyu, S., Sukontasukkul, P., Yuen, T. Y. P., Wong, S. H. F., Hansapinyo, C., Adom-Asamoah, M., Shen, M., Huang, L., Kuang, J. S., & Zou, Y. (2023). Experimental study on flexural behaviours of fresh or aged hollow reinforced concrete girders strengthened by prestressed CFRP plates. Engineering Structures, 294, Article 116776. https://doi.org/10.1016/j.engstruct.2023.116776

Journal Article Type Article
Acceptance Date Aug 13, 2023
Online Publication Date Aug 19, 2023
Publication Date 2023-11
Deposit Date Aug 20, 2023
Publicly Available Date Aug 21, 2023
Journal Engineering Structures
Print ISSN 0141-0296
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 294
Article Number 116776
DOI https://doi.org/10.1016/j.engstruct.2023.116776
Keywords Prestressed Carbon Fibre Reinforced Polymer, CFRP plate, Structural strengthening, Box girder, Reinforced concrete

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