R. Shanthi Vengadeshwari scite author profile

In this paper the recent progress and achievement in the application of fibers in concrete has been intensively investigated. Most of the conclusions on fibers are arrived at by conducting experiments on plain and reinforced concrete. The significance of this paper is in the collation of the research works reported to date in the area of fibers/hybrid fibers on plain, reinforced and prestressed concrete. Research efforts on the behavior of fiber reinforced high strength concrete in the area of prestressed concrete structures are limited. If the addition of fibers proves to improve the ductility and post crack strength of prestressed concrete, it would be a boon to the construction industry.

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Comparative study on the influence of mono fibers in the behaviour of RCC & PSC beams

Vengadeshwari

Reddy

2023

Materials Today: Proceedings

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Experimental investigation on influence of hybrid fibers in flexural behavior of reinforced concrete beams

Vengadeshwari

Reddy

Prabhakara³

2022

Cem. Wapno Beton

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Addition of fiber is a promising solution, to enhance the flexural behaviour of reinforced cement concrete [RCC] beams. It improves the peak load, ductility and energy absorption characteristics of RCC. Ineffective mono fibers in the concrete perform very effective, when combined through the hybridization and contribute towards the strength. Fiber hybridization offers appreciable improvement in fresh and hardened properties of concrete. To achieve optimum performance, synergetic effect of fibers is more important. Incorporation of two fibers in concrete matrix, bridges the cracks effectively. Hence to investigate the effect fiber hybridization in the flexural performance, RCC beams were cast, experimented and the results were compared with the control beams. In the present study, it is intended to evaluate and compare the impact of steel and basalt fibers in mono form and hybrid form, on the flexural parameters such as first crack load, load response behaviour, ductility, crack width and flexural strength of RCC beams. To evaluate the mechanical properties of M40 grade fiber reinforced concrete, volume fractions chosen were 0.25%, 0.5% and 0.75%. Comparatively addition of basalt fibers with steel fibers, improves synergetic response to a considerable extent. From overall assessment of the mechanical properties, it was established that the combination of basalt and steel fibers at 0.25% and 0.75% respectively, produced optimum results. Optimum volume fraction of fibers identified is used in the casting of RCC beams. Wherever possible, flexural parameters were cross checked, with Indian Standards.

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