Compressive Strength of Geopolymer Concrete Composites: Modeling and Comprehensive Systematic Review

Abstract: The growing concern about global climate change and its adverse impacts on societies is putting severe pressure on the construction industry as one of the largest producers of greenhouse gases. Given the environmental issues associated with cement production, geopolymer concrete has emerged as a sustainable construction material. Geopolymer concrete is cementless concrete that uses industrial or agro by-product ashes as the main binder instead of ordinary Portland cement; this leads to being an eco-efficient a… Show more

“…During a fire, the temperature is typically over 800 °C for 30 min, then slowly rises to approximately 1000-1100 °C within 2-2.5 h [18]. GC is not capable of performing at full mechanical strength over 600 °C [19,20] because geopolymer pastes and aggregates differ microstructurally and are thermally incompatible [21].…”

The role of chemistry and fineness of metakaolin on the fresh properties and heat resistance of blended fly ash-based geopolymer

“…During a fire, the temperature is typically over 800 °C for 30 min, then slowly rises to approximately 1000-1100 °C within 2-2.5 h [18]. GC is not capable of performing at full mechanical strength over 600 °C [19,20] because geopolymer pastes and aggregates differ microstructurally and are thermally incompatible [21].…”

The role of chemistry and fineness of metakaolin on the fresh properties and heat resistance of blended fly ash-based geopolymer

Determination of stress-strain relationship based on alkali activator ratios in geopolymer concretes and development of empirical formulations