Abstract
Due to the inherent property of concrete being very weak in tension, efforts have been made to overcome this deficiency by adding various type of fibers like carbon fiber reinforced polymer (CFRP), glass fiber reinforced polymer (GFRP), polypropylene fiber (PPF) and stainlesssteel fiber (SSF) smeared into the concrete mix. The present study involves experimental investigation on the use of GFRP, CFRP and SSF fibers alone or as combination to improve the mechanical properties of concrete. Furthermore, concrete cylinders were cast and tested for compression and tension using 10% fly ash as cement replacement in all specimens. Besides fiber material types, fiber reinforcement ratios of 1% and 1.5% were tested to investigate the mechanical properties of concrete. In all concrete cylinder tests, the fiber reinforcement ratio of 1% had a significant contribution in increasing the tensile strength as oppose to compressive strength. As a result, the tensile and compressive strengths were increased by 26% and 11%, respectively as compared to the control specimen. Increasing the fiber reinforcement ratio from 1% to 1.5%, resulted in diminishing the mechanical properties of concrete. However, reduction in concrete compressive strength was more prominent than the tensile strength. Furthermore, it was observed that, the crack propagation was decreased with the increase of fiber content when compared to the control specimen.
Highlights
Demand of using fiber reinforced polymer (FRP) materials has been increased widely thorough out the world in the past few decades
Due to the inherent property of concrete being very weak in tension, efforts have been made to overcome this deficiency by adding various type of fibers like carbon fiber reinforced polymer (CFRP), glass fiber reinforced polymer (GFRP), polypropylene fiber (PPF) and stainlesssteel fiber (SSF) smeared into the concrete mix
The results revealed that, fibers in concrete, increase both compressive and tensile strengths of tested concrete cylinders after the curing period of 28 days
Summary
Demand of using fiber reinforced polymer (FRP) materials has been increased widely thorough out the world in the past few decades. In addition to recycled materials i.e. silica fume, fly ash, blast furnace slag and baggase ash that are used as cement replacement in concrete mix, smeared fibers can improve the mechanical properties of cement concrete. As compared to normal strength concrete, fiber-reinforced concrete is much stronger and more resistant under extreme loading and enhances the energy absorption capability and stiffness of the material It increases the tensile as well as the flexural strength of concrete. The engineering advantages of mixing fiber in cement concrete improve the stiffness, fracture, fatigue resistance, flexural strength, compressive strength, impact resistance, thermal crack resistance, and shear strength The improvement in such properties depends both upon the amount and the type of fiber used [1].
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