Journal
STRUCTURES
Volume 30, Issue -, Pages 735-744Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.istruc.2021.01.024
Keywords
Flexural capacity; Reinforced concrete beam; Carbon textile reinforced mortar; Strengthening
Categories
Funding
- Natural Science Foundation of Hunan Province [2018JJ2043]
- Major Project of SciTech Plan of Changsha City [kq1804002, kq1703002]
- Project of SciTech Plan of Changsha City [kq1701032]
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This study investigates the flexural behavior of prestressed CTRM plate strengthened preloaded RC beams, finding that the prestressed CTRM plates effectively inhibit crack propagation and increase crack and ultimate loads, which is crucial for advancing the use of CTRM in repairing, retrofitting, and strengthening existing RC structures.
Carbon textile reinforced mortar (CTRM) is an advanced composite material that has excellent fire resistance, high strength and ductility, and good energy dissipation ability. Nevertheless, its full potential has not been fully investigated in the literature. In this paper, the flexural behaviour of preloaded reinforced concrete (RC) beams strengthened with a prestressed CTRM plate is explored. RC beams with and without an attached CTRM plate under various preloading conditions are tested. Their load-deflection and load-strain properties, bending capacity, ductility, and crack pattern and width are subsequently examined. The test results show that the prestressed CTRM plates can effectively inhibit the propagation of cracking and significantly increase the cracking and ultimate loads. The findings from this study are useful in advancing the use of CTRM to repair, retrofit and strengthen existing RC structures.
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