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Procedure for mix designing used for steel fibre reinforced self-compacting concrete
Department of Civil Engineering, Cambridge Institute of Technology, Ranchi, Jharkhand-834001, India.
Research Article
International Journal of Science and Research Archive, 2023, 08(01), 793–803.
Article DOI: 10.30574/ijsra.2023.8.1.0126
Publication history:
Received on 27 December 2022; revised on 08 February 2023; accepted on 11 February 2023
Abstract:
This work focuses on a methodical design process for developing self-compacting concrete (SFRSCC) using steel fibre reinforcements. The objective is to create a self-consolidating concrete that has the double advantage of self-consolidating characteristics and composite toughness. Experimental modelling involved building the mortar phase with manufactured sand (M-sand) as fine aggregate utilising a systematic mix design process based on the particle packing idea. Optimisation of aggregates was determined using the packing density idea and slump cone research. By conducting a paste consistency test, cement and ground granulated blast furnace slag (GGBFS) powder combinations were chosen. Finally, the amount of superplasticizer was determined based on Marsh cone experiments and the percentage by volume of steel fibres determined by slump flow research. The addition of steel fibre dosage impacts the workability of both standard and high strength concrete, and the fresh properties emphasised the necessity to maintain a large paste volume for increased workability. On the basis of the recommended mix design technique using M-sand, self-compacting concrete with a maximum strength of 70MPa was manufactured. On the other hand, experimental studies on the fresh and hardened properties of recommended self-compacting steel fibre concrete mixes were presented. In addition, test findings demonstrated the viability of employing M-sand as a replacement for river sand in its entirety.
Keywords:
Self Compacting Concrete; Steel Fibres; Compressive strength; Mix Designing
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Copyright © 2023 Author(s) retain the copyright of this article. This article is published under the terms of the Creative Commons Attribution Liscense 4.0
