Experimental investigation and numerical simulation of the flexural behavior of reinforced concrete beams strengthened by geopolymer-bonded CFRP
Multidiscipline Modeling in Materials and Structures
ISSN: 1573-6105
Article publication date: 9 June 2022
Issue publication date: 16 June 2022
Abstract
Purpose
A numerical simulation of the test beam was carried out with Abaqus and compared with test data to ensure that the modeling method is accurate. An analysis of the effects of the angle between the U-hoop and horizontal direction, the pre-crack height, the pre-crack spacing, and the strength of the geopolymer adhesive on the cracking load and ultimate load of the reinforced beam is presented.
Design/methodology/approach
Load tests and finite element simulations were conducted on carbon fiber reinforced polymer-reinforced concrete beams bonded with geopolymer adhesive. The bond-slip effect of geopolymer adhesive was taken into account in the model. The flexural performances, the flexural load capacities, the deformation capacities, and the damage characteristics of the beams were observed, and the numerical simulation results were in good agreement with the experimental results. An analysis of parametric sensitivity was performed using finite element simulation to investigate the effects of different angles between U-hoop and horizontal direction, pre-crack heights, pre-crack spacing, and strength of geopolymer adhesive on cracking load and ultimate load.
Findings
Under the same conditions, the higher the height of the pre-crack, the lower the bearing capacity; increasing the pre-crack spacing can delay cracking, but reduce ultimate load. By increasing the strength of the geopolymer adhesive, the flexural resistance of the beam is improved, and crack development is also delayed; the angle between the u-hoop and horizontal direction does not affect the cracking of reinforced beams; a horizontal u-hoop has a better effect than an oblique u-hoop, and 60° is the ideal angle between the u-hoop and horizontal direction for better reinforcement.
Originality/value
According to the experimental study in this paper, Abaqus was used to simulate the strength of different angles between U-hoop and horizontal direction, pre-crack heights, pre-crack spacings, and geopolymer adhesives, and the angles' effects on the cracking load and load carrying capacity of test beams were discussed. Since no actual tests are required, the method is economical. This paper offers data support for the promotion and application of environmentally friendly reinforcement technology, contributes to environmental protection, and develops a new method for reinforcing reinforced concrete beams and a new concept for finite element simulations.
Keywords
Acknowledgements
This study was funded by “the Fundamental Research Funds for the Central Universities” (No: 2572021BJ01) and Heilongjiang Province Postdoctoral Foundation of China (No: LBH-Z20036).
Citation
Liu, J. and Yan, F. (2022), "Experimental investigation and numerical simulation of the flexural behavior of reinforced concrete beams strengthened by geopolymer-bonded CFRP", Multidiscipline Modeling in Materials and Structures, Vol. 18 No. 3, pp. 401-429. https://doi.org/10.1108/MMMS-04-2022-0049
Publisher
:Emerald Publishing Limited
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