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Evaluation of the Ultimate Strength of the Ultra-High-Performance Fiber-Reinforced Concrete Beams

Baek-Il Bae, Moon‐Sung Lee, Chang-Sik Choi, Hyung-Suk Jung, Hyun-Ki Choi

2021Applied Sciences33 citationsDOIOpen Access PDF

Abstract

Evaluation of the ultimate strength for the UHPFRC (ultra-high-performance fiber-reinforced concrete) flexural members was conducted. In this study, an experimental program about UHPFRC beams was conducted with the effect of fiber volume fraction, shear span to depth ratio, and compressive strength of matrix as the main variables. Among them, it was found that fiber volume fraction was the variable that had the greatest influence on the ultimate strength. The inclusion of 2% volume fraction steel fiber increases the shear and flexural strength of UHPFRC beams significantly. In particular, steel fiber inclusion changed the mode of failure of beams from diagonal shear failure into flexural failure. For the classification of failure patterns, the ultimate flexural strength and shear strength of UHPFRC members were evaluated using the current design code and UHPC guidelines. Flexural ultimate strength was affected by the size and shape of the stress block and consideration of the matrix’s tensile strength. For the accurate shear strength prediction of UHPFRC beams, the tensile strength of the high strength matrix and the effect of steel fiber should be considered.

Topics & Concepts

Flexural strengthUltimate tensile strengthMaterials scienceComposite materialCompressive strengthVolume fractionStructural engineeringFiber-reinforced concreteShear (geology)Shear strength (soil)FiberEngineeringGeologySoil scienceSoil waterInnovative concrete reinforcement materialsStructural Behavior of Reinforced ConcreteStructural Load-Bearing Analysis
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