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Physico-mechanical properties and synergistic hydration mechanism of steel slag-GBFS based alkali-activated composites incorporated with silica fume

Meng Gao, Jiahao Wang, Wei Sha, Yanzhe Guo

2025Journal of Materials Research and Technology13 citationsDOIOpen Access PDF

Abstract

Low reactivity and expansion limit steel slag (SS) use, while silica fume (SF) aids high-density matrix formation in cementitious materials due to its unique properties. To investigate the feasibility of enhancing SS-based materials with SF, an alkali-activated SS-GBFS-SF composite was prepared. This work examined the impact of SF on the physico-mechanical properties and microscopic characteristics, revealing the synergistic hydration mechanism among the components. The results show that a reasonable amount of SF can effectively improve the fluidity and mechanical properties of SS-GBFS based alkali-activated systems. When the mass ratio of SS to GBFS is 2:3 and SF dosage is 5 %, the fluidity of SS-GBFS-SF mortar is 170 mm, with compressive strength of 71 MPa at 90 days. The influence of SF on the early-age drying shrinkage rate of mortars is significant. At a dosage of 5 %, the 3-day drying shrinkage rate increases by 10.3 % compared to SS-GBFS group. However, this effect gradually decreases in the later stages. Early dissolution of SF produces soluble silicate, which reduces the activation effect of the alkali-activator. During the hydration process, SF consumes hydroxide, resulting in a decreased dissolution of calcium ion in the cementitious system and delaying the hydration of SS. In addition, SF provides a source of silicon, which increases the polymerization of hydration products. In the later stages of hydration, the unreacted SF acts as a physical filler, refining the microstructure and improving the comprehensive performance of the composites. • 5 % SF improves the fluidity and strength of SS-GBFS-SF system to a certain degree. • Moderate SF increases the early-age drying shrinkage and optimizes pore structure. • SF provides a silicon source and enhances gel polymerization and interlacing. • SF delays SS hydration in early stage and acts as a physical filler in later stage.

Topics & Concepts

Materials scienceSlag (welding)Silica fumeComposite materialAlkali metalMechanism (biology)Compressive strengthEpistemologyPhilosophyQuantum mechanicsPhysicsConcrete and Cement Materials ResearchMagnesium Oxide Properties and ApplicationsInnovative concrete reinforcement materials
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