Litcius/Paper detail

Fracture properties and microstructure formation of hardened alkali-activated slag/fly ash pastes

Shizhe Zhang, Zhenming Li, Bahman Ghiassi, Suhong Yin, Guang Ye

2021Cement and Concrete Research186 citationsDOIOpen Access PDF

Abstract

This study presents a comprehensive experimental investigation on the fracture properties of hardened alkali-activated slag/fly ash (AASF) pastes in relation to the microstructure formation and reaction product composition. The main reaction product in AASF is C-(N-)A-S-H gel along with minor hydrotalcite phase, with the polymerization of C-(N-)A-S-H gel substantially governed by its Ca/Si ratio. Strong positive correlations are identified between the Ca/Si ratios of C-(N-)A-S-H gel and the fracture properties KIc (Jtip), whereas, the compressive strength of AASF pastes is primarily determined by its capillary porosity (>0.01 μm). The disagreements between the Ca/Si ratios and corresponding intrinsic mechanical properties of C-(N-)A-S-H gel as proof by contradiction indicate that the fracture properties KIc (Jtip) of AASF pastes could be dominated by a cohesion/adhesion-based mechanism. These findings provide promising guidance for fine-tuning the fracture properties of AASF and also advise on the tailoring strategies for high-performance composite such as strain-hardening geopolymer composite.

Topics & Concepts

Materials scienceMicrostructureGeopolymerFly ashMicroporous materialComposite materialCompressive strengthComposite numberHardening (computing)PorosityLayer (electronics)Concrete and Cement Materials ResearchRecycling and utilization of industrial and municipal waste in materials productionAdvanced ceramic materials synthesis