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Optimisation of mechanical properties and impact resistance of basalt fibre reinforced concrete containing silica fume: Experimental and response surface assessment

Idris Ahmed Ja’e, Raja Amirul Naquib bin Raja Sazrin, Agusril Syamsir, Naraindas Bheel, Chiemela Victor Amaechi, Teh Hee Min, Vivi Anggraini

2024Developments in the Built Environment29 citationsDOIOpen Access PDF

Abstract

Although Basalt fibre reinforced concrete (BFRC) has a proven record of outstanding behaviour, concerns regarding the decline in its performance beyond certain content remains a major concern. To address this concern, a varying content of Silica Fume (SF) was introduced into the BFRC mix, and their combined influence on concrete's mechanical and impact resistance was investigated using experimental and Response Surface Analysis (RSA). Using regression models developed from experimental results, 13 responses of statistically designed experiments were predicted. The findings revealed significant improvement in the concrete performance with increases between 28% to 65% in compressive strength, 35%–107% in split tensile strength, 11%–46% in flexural strength and 117%–150% in the impact resistance. Therefore, appropriate proportions of BF and SF can be utilised as an eco-friendly sustainable material in concrete.

Topics & Concepts

Silica fumeMaterials scienceFlexural strengthUltimate tensile strengthComposite materialCompressive strengthProperties of concreteImpact resistanceResponse surface methodologyBasaltComputer scienceGeologyMachine learningGeochemistryInnovative concrete reinforcement materialsStructural Behavior of Reinforced ConcreteConcrete and Cement Materials Research
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