Abstract
High-strength concrete is used to provide quality control for concrete structures, yet it has the drawback of brittleness. The inclusion of fibers improves the ductility of concrete but negatively affects the fresh properties of fiber-reinforced concrete. The effects of different fine to coarse aggregate ratios on the fresh and hardened properties of steel fiber reinforced concrete were investigated in this study. Mixtures were prepared with various fine to coarse aggregate (FA/CA) ratios incorporating 1% steel fiber content (by volume) at constant water to cement ratio. The workability, unit weight, and temperature of the concrete in the fresh state, and the mechanical properties of steel-fiber-reinforced concrete (SFRC) were investigated. The inclusion of fiber in concrete influenced the mobility of concrete in the fresh state by acting as a barrier to the movement of coarse aggregate. It was observed that the concrete with an FA/CA ratio above 0.8 showed better flowability in the fresh state, whilst an above 0.9 FA/CA ratio requires excessive superplasticizer to maintain the flowability of the mixtures. The compressive and flexural strength of SFRC increased with an increase in the FA/CA ratio by around 10% and 28%, respectively. Experimental values of compressive strength and flexural strength showed good agreement, however, modulus of elasticity demonstrated slightly higher values. The experimentally obtained measurements of the mechanical properties of SFRC conformed reasonably well with the available existing prediction equations, and further enabled establishing predictive isoresponse interactive equations within the scope of the investigation domain.
Highlights
IntroductionThe utilization of high-strength concrete (HSC) has become an integral part of modern day construction, due to its excellent behavior in both mechanical and durability related properties
The utilization of high-strength concrete (HSC) has become an integral part of modern day construction, due to its excellent behavior in both mechanical and durability related properties.HSC is brittle in nature compared to normal-strength concrete (NSC)
Silica fume (SF) is one of the essential materials included in HSC mixtures, there was no significant difference between densified SF and undensified SF in the properties of fresh and hardened ultra-high performance fiber-reinforced concrete [1]
Summary
The utilization of high-strength concrete (HSC) has become an integral part of modern day construction, due to its excellent behavior in both mechanical and durability related properties. HSC is brittle in nature compared to normal-strength concrete (NSC). Silica fume (SF) is one of the essential materials included in HSC mixtures, there was no significant difference between densified SF and undensified SF in the properties of fresh and hardened ultra-high performance fiber-reinforced concrete [1]. Inclusion of fibers reduces the workability and improves the hardened properties of the concrete. The flow behavior of self-compacting concrete (SCC) with fibers is different compared to that of SCC without fibers [2,3,4,5].
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