Author:
Yang Xin,Liang Ninghui,Hu Yang,Feng Rui
Abstract
AbstractTo study the influence of polypropylene fibers with different thicknesses on concrete beams, inclined section shear tests of polypropylene fiber concrete beams were carried out. The cracking load, ultimate load, midspan deflection, reinforcement, and strain of polypropylene fiber concrete beams and conventional reinforced-concrete beams under shear were compared and analyzed. The load-bearing capacity of the rectangular beams was improved significantly by polypropylene fiber addition. Compared with conventional reinforced-concrete beams, the limit shear load of concrete beams with polypropylene fibers and multisize polypropylene concrete beams that were reinforced with three types of fibers increased by 8.67% and 17.07%, respectively. By mixing polypropylene fibers into concrete beams, the initial crack shear force of the beam was improved, the number of cracks was increased and the crack width was reduced, which can increase the beam ductility, inhibit crack formation and increase the strength. The computational formula of the shear ultimate bearing capacity of polypropylene fiber–concrete beams was revised according to composite material theory, and the calculated results were consistent with the test values.
Funder
Training Plan for Outstanding Young Scientific Research Talents in Colleges and Universities of Fujian Province
Innovative Research Group Project of the National Natural Science Foundation of China
Publisher
Springer Science and Business Media LLC
Subject
Ocean Engineering,Civil and Structural Engineering
Reference34 articles.
1. Abdelrazik, A. T., & Khayat, K. H. (2020). Effect of fiber characteristics on fresh properties of fiber reinforced concrete with adapted rheology. Construction and Building Materials, 230, UNSP 116852.
2. Aoude, H., Belghiti, M., Cook, W. D., & Mitchell, D. (2012). Response of steel fiber-reinforced concrete beams with and without stirrups. ACI Structural Journal, 109(3), 359–367.
3. Arslan, G., Keskin, R. S. O., & Ozturk, M. (2017). Shear behaviour of polypropylene fibre-reinforced-concrete beams without stirrups. Proceedings of the Institution of Civil Engineers: Structures and Buildings., 170(3), 190–198.
4. Asgari, M. A., Mastali, M., Dalvand, A., & Abdollahnejad, Z. (2019). Development of deflection hardening cementitious composites using glass fibres for flexural repairing/strengthening concrete beams: Experimental and numerical studies. European Journal of Environmental and Civil Engineering, 23(8), 916–944.
5. Cardoso, D. C. T., Pereira, G. B. S., Silva, F. A., Silva, J. J. H., & Pereira, E. V. (2019). Influence of steel fibers on the flexural behavior of RC beams with low reinforcing ratios: Analytical and experimental investigation. Composite Structures., 222, UNSP 110926.
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