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Mitigating the efflorescence of alkali-activated slag mortars by aluminosilicate-based lightweight fine aggregate

Chen Liu, Zhenming Li, Guang Ye

2025Cement and Concrete Research12 citationsDOIOpen Access PDF

Abstract

Efflorescence is a significant aesthetic and structural issue for alkali-activated materials (AAMs). This study addressed this issue at the aggregate level for the first time. The results indicated that substituting sand with aluminosilicate-based lightweight fine aggregate (LWFA) by 20 % or 50 % in volume reduced the efflorescence of alkali-activated slag (AAS) mortars by 14.6 % or 43 %, respectively. The mitigation mechanisms of LWFA were proposed in terms of gels, pore solution and microstructure. Specifically, the pozzolanic reaction of LWFA provided gels with additional Si and Al, which contributed to binding Na + in the pore solution, thereby reducing the available Na for efflorescence formation. Combined with its internal curing effect, LWFA densified the surrounding pastes, which hindered the transport of ions and water, thus limiting the formation of efflorescence products. Furthermore, the incorporation of LWFA enhanced the flexural strength of mortars without significantly compromising compressive strength.

Topics & Concepts

EfflorescenceAluminosilicateMortarAggregate (composite)Slag (welding)Materials scienceAlkali metalGeopolymerComposite materialCompressive strengthMetallurgyMineralogyGeologyChemistryBiochemistryCatalysisOrganic chemistryConcrete and Cement Materials ResearchConcrete Properties and BehaviorInnovative concrete reinforcement materials