- El-Cezeri
- Vol: 10 Issue: 2
- Computational Integrated Smart HFRTB Concrete for Sustainable Constructions
Computational Integrated Smart HFRTB Concrete for Sustainable Constructions
Authors : Mohankumar BAJAD
Pages : 296-304
Doi:10.31202/ecjse.1213460
View : 30 | Download : 41
Publication Date : 2023-05-31
Article Type : Research Article
Abstract :When hybrid fibre Reinforced Ternary Blended (HFRTB) concretes were exposed to sustained elevated temperatures for three hours (SET-3hrs), the effect of two cooling regimes (sudden and gradual) was examined. At 100o C intervals, the temperature ranges from 100o C to 1000o C. Traditional concrete is compared to two ternary blended (TB) concretes (Cement + fly ash + GGBFS and Cement + fly ash + silica fume), as well as hybrid fibres (Galvanized iron + polypropylene). The specimens were put through a series of strength and durability tests, with slow cooling outperforming abrupt chilling.Keywords : : cooling regime, durability, fibre, sustained elevated temperatures, strength, ternary blended concrete