Litcius/Paper detail

Microstructure as a key parameter for understanding chloride ingress in alkali-activated mortars

Antonino Runci, John L. Provis, Marijana Serdar

2022Cement and Concrete Composites44 citationsDOIOpen Access PDF

Abstract

This study aims to evaluate the influence of microstructural properties on the chloride diffusion resistance of alkali-activated materials (AAMs) based on blast furnace slag and/or fly ash, with variable activator doses (represented as Na2O%). Resistance to chloride penetration was tested using accelerated chloride penetration (NT BUILD 443) and chloride migration (NT BUILD 492) tests. Addition of slag to alkali-activated mortars mainly based on fly ash reduced porosity and chloride permeability. Chloride penetration decreased with increasing Na2O%, but porosity and pore structure did not follow the same trend. The pore threshold (dth) and critical pore radius (rcrit) determined by mercury intrusion porosimetry had a good correlation with the chloride diffusion coefficient. Both the quantification of reaction products and the correlation between chloride penetration and pore surface area indicated that physical chloride adsorption on the C-A-S-H/N-A-S-H gel surfaces predominated over chemical chloride binding.

Topics & Concepts

ChloridePorosityMicrostructureMortarAlkali metalMaterials scienceFly ashPenetration (warfare)Ground granulated blast-furnace slagChemical engineeringChemistryComposite materialMineralogyMetallurgyOrganic chemistryOperations researchEngineeringConcrete and Cement Materials ResearchConcrete Properties and BehaviorInnovative concrete reinforcement materials