Abstract:
This paper presents the potential use of externally bonded fiber reinforced polymer (FPR) systems to upgrade reinforced concrete slabs deficient in flexural strength. A total of five slabs,
each having 500 mm width, 125 mm thickness, and 1530 mm length, were cast and tested to failure
under four-point bending. Two slabs were reinforced with three number of 10 mm tor steel bars at the
tension side that corresponds to 0.38% steel reinforcement ratio. One slab was used as a control whilst
the other slab was strengthened with fiber reinforced polymer (FRP). Other three slabs were
reinforced with four numbers of 6 mm mild steel bars at the tension side that corresponds to 0.18%
steel reinforcement ratio. One slab was used as a control specimen while the other two slabs were
strengthened with different arrangement of fiber reinforced polymer (FRP). In the experimental stage,
the influences of FRP on the slabs were analyzed by studying their behaviour at failure.
Citation:
Sivarajah, A., Abeysinghe, A., Lakshitha, M., & Lewangamage, S. (2011). Ultimate strength prediction for reinforced concrete slabs externally strengthened by Fiber Reinforced Polymer (FRP). In N. Ratnayake (Ed.), Proceedings of the Civil Engineering Research for Industry Symposium 2011 (pp. 7-12). Department of Civil Engineering, University of Moratuwa.