@article{eprints17389,
            year = {2022},
       booktitle = {Experimental Findings and Validation on Torsional Behaviour of Fibre-Reinforced Concrete Beams: A Review},
         journal = {polymers},
          author = {P. O. Awoyera and John Uduak Effiong and Oladimeji Benedict Olalusi and Krishna Prakash Arunachalam and Flavia R. B. Martinelli and Sergio Neves Monteiro},
           title = {Experimental findings and validation on torsional behaviour of fibre-reinforced concrete beams: a review},
        abstract = {Fibres have long been utilized in the construction sector to improve the mechanical qualities of structural elements such as beams, columns, and slabs. This study aims to review the torsional behaviour of various forms of fibre reinforced concrete to identify possible enhancements and the practicability of concrete structural beams. Concrete reinforced steel fibre, synthetic fibre, and hybrid fibre are examples of fibre reinforced concrete. The review found that the mixing, orientation, and volume of fibres, the size of coarse particles, the aspect ratio of fibres, and the stiffness of fibres all affect the torsional strength of fibre reinforced concrete. Nevertheless, the application of fibres to recycled self-consolidating concrete of various forms needs to be explored and studied to ascertain its feasibility to facilitate greener concrete. Thus, with the results compiled in this review paper, it was possible to delimit advances and gaps on the effect of editing reinforcement fibres in relation to the torsion of structural elements.},
        keywords = {fibres; reinforced concrete; failure mechanisms; torsional behaviour; green concrete},
             url = {http://eprints.covenantuniversity.edu.ng/17389/}
}