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The early-age cracking sensitivity, shrinkage, hydration process, pore structure and micromechanics of cement-based materials containing alkalis with different metal ions

Yang Li, Zhang Hui, Zhenzhong Zhang, Yan Li, Heqi Fang, Jun Yuan, Shengwen Tang

2024Developments in the Built Environment34 citationsDOIOpen Access PDF

Abstract

The early-age cracking sensitivity of cement-based materials containing alkalis with different metal ions (Na+ and K+) is investigated. The results indicate that alkalis containing both Na+ and K+ can promote the early cracking sensitivity of cement-based materials, in which K+ having a higher promoting effect than Na+. By exploring the shrinkage properties, hydration process, pore structure and micromechanics, the mechanism of the cracking performance of cement-based materials containing alkalis with different metal ions are revealed. According to the experimental results and the analysis of mechanism, alkali enhances the cracking sensitivity of cement-based materials by increasing their shrinkage rate, promoting hydration process, and refining pore structure. But the improvement of cracking sensitivity of cement-based materials containing alkalis with Na+ or K+ is related to cohesive force and structure of calcium silicate hydrates clusters.

Topics & Concepts

ShrinkageMicromechanicsCrackingMaterials scienceCementComposite materialIonMetalMetallurgyChemistryComposite numberOrganic chemistryConcrete and Cement Materials ResearchConcrete Properties and BehaviorDrilling and Well Engineering