Effect of Fibre Aspect-Ratio on the Fresh and Strength Properties of Steel Fibre Reinforced Self-Compacting Concrete

Abstract: This paper presents the findings of investigation, which was instigated to assess the effects of fibre aspect-ratio on the fresh and mechanical properties of SCC. The investigational parameters were aspect-ratio of the fibre and fibre addition rate. Two different aspect-ratios (64 and 73) of steel fibre were used and the fibre addition rate was between 0.2% and 1.0% with the increment of 0.2% and the fibres were added to the SCC in volume fraction. A series of tests were performed to determine the impact of fi… Show more

“…Sulthan et al [17,18] reported that an escalation in the volume fraction of steel fibers is correlated with a decrease in the workability of SFRSCC, highlighting the need for a balance between reinforcement and workability in mix design. Zhuang et al [19] and Sivanantham et al [20] delved into the influence of the fiber aspect ratio on the fresh properties and strength characteristics of SFRSCC. Their research has demonstrated that while the addition of fibers exerts a moderate influence on the compressive strength of self-compacting concrete, there is a pronounced enhancement observed in both flexural and tensile strengths.…”

Influence of Extra-Short Extra-Fine Steel Fibers on Mechanical Properties of Self-Compacting Concrete with Single-Doped Fly Ash

“…Sulthan et al [17,18] reported that an escalation in the volume fraction of steel fibers is correlated with a decrease in the workability of SFRSCC, highlighting the need for a balance between reinforcement and workability in mix design. Zhuang et al [19] and Sivanantham et al [20] delved into the influence of the fiber aspect ratio on the fresh properties and strength characteristics of SFRSCC. Their research has demonstrated that while the addition of fibers exerts a moderate influence on the compressive strength of self-compacting concrete, there is a pronounced enhancement observed in both flexural and tensile strengths.…”

Influence of Extra-Short Extra-Fine Steel Fibers on Mechanical Properties of Self-Compacting Concrete with Single-Doped Fly Ash

Effect of fibre diameter and tensile strength on the mechanical, fracture, and fibre distribution properties of eco-friendly high-strength self-compacting concrete

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