Aref A. Abadel scite author profile

Mechanical properties of hybrid fibre-reinforced concrete (HFRC) are studied and the role of constituent fibres on overall response of HFRC is investigated. HFRC was produced using different proportions of hooked-ended steel, crimped polypropylene and plain Kevlar fibres with a total fibre volume fraction of 1·2% and 1·4%. The test results indicate that the incorporation of hybrid fibres in concrete improve the compressive and tensile strengths moderately and toughness considerably. Analytical models are developed to quantify the effect of individual fibres on compressive and tensile strengths, stress–strain curves and flexural toughness ratio of HFRC in terms of a comprehensive fibre reinforcing index. The proposed models show a marked improvement over existing models. The existing models are for single (steel) fibres only, whereas the proposed models are general and applicable to HFRC containing any number of fibres.

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Analytical and experimental investigations on the fracture behavior of hybrid fiber reinforced concrete

Almusallam

Ibrahim

Al-Salloum

et al. 2016

Cement and Concrete Composites

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Textile-Reinforced Mortar versus FRP as Strengthening Material for Seismically Deficient RC Beam-Column Joints

et al. 2011

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Numerical Investigations on the Seismic Behavior of FRP and TRM Upgraded RC Exterior Beam-Column Joints

et al. 2012

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Effectiveness of hybrid-fibers in improving the impact resistance of RC slabs

Almusallam

Abadel

Al-Salloum

et al. 2015

International Journal of Impact Engineering

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Bond strength between concrete substrate and metakaolin geopolymer repair mortars at ambient and elevated temperatures

Albidah

Abadel

Alrshoudi

et al. 2020

Journal of Materials Research and Technology

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Influence of steam curing regimes on the properties of ultrafine POFA-based high-strength green concrete

Zeyad

Johari

Alharbi

et al. 2021

Journal of Building Engineering

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Aref A. Abadel

Behavior of FRP-confined concrete after high temperature exposure

Mechanical properties of hybrid fibre-reinforced concrete – analytical modelling and experimental behaviour

Analytical and experimental investigations on the fracture behavior of hybrid fiber reinforced concrete

Textile-Reinforced Mortar versus FRP as Strengthening Material for Seismically Deficient RC Beam-Column Joints

Numerical Investigations on the Seismic Behavior of FRP and TRM Upgraded RC Exterior Beam-Column Joints

Effectiveness of hybrid-fibers in improving the impact resistance of RC slabs

Bond strength between concrete substrate and metakaolin geopolymer repair mortars at ambient and elevated temperatures

Influence of steam curing regimes on the properties of ultrafine POFA-based high-strength green concrete

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