Litcius/Paper detail

Reaction mechanisms of one-part and two-part slag-based binders activated by sodium carbonate and lime

Xiaojuan Kang, Zushi Tian, Clarence Edward Choi, Hailong Ye

2025Cement and Concrete Composites28 citationsDOIOpen Access PDF

Abstract

One-part alkali-activated slag (AAS) is a safer and more manageable alternative to a two-part formulation. This work compares the reaction mechanism, phase formation, microstructure and properties developments between one-part and two-part AAS pastes prepared by a combined lime (CaO) and sodium carbonate (Na 2 CO 3 ) activator. The results show that the CaO-Na 2 CO 3 combination effectively accelerates slag reaction, resulting in 3–6 times higher compressive strength in AAS than blended slag-OPC binder at 1 d. Initially, two-part AAS demonstrates a slightly greater accelerating effect due to rapid generation of a strong alkaline condition, characterized by a hydroxyl ion concentration ([OH − ]) in pore solution that is twice that of one-part AAS. This elevated alkalinity in two-part AAS enhances early-age hydration of slag and promotes phase formation, resulting in increased strength and refined microstructure. However, after 28 d, the strength of one-part AAS approaches and even surpasses that of two-part AAS, attributed to a more stable and progressive reaction between Ca(OH) 2 and dissolving Na 2 CO 3 , which produces NaOH. This steady reaction maintains a stable pH and allows for the gradual release of alkalis, resulting in increased degree of hydration (DOH) of slag, mean chain length (MCL), Al/Si and Q 2 /Q 1 ratios of C-A-S-H, as well as enhanced Al linkage in C-A-S-H of one-part AAS. In addition, the one-part AAS activated by CaO-Na 2 CO 3 demonstrates up to 93 % reduction in CO 2 emissions while maintaining comparable strength to OPC counterparts, highlighting its great potential as a green binder for sustainable construction applications.

Topics & Concepts

Sodium carbonateLimeCarbonateSlag (welding)SodiumChemistryMetallurgyGeologyMineralogyMaterials scienceConcrete and Cement Materials ResearchInnovative concrete reinforcement materialsMagnesium Oxide Properties and Applications