Property enhancement and mechanism of cement-based composites from the perspective of nano-silica dispersion improvement

Nano-silica (NS) exhibits significant potential for enhancing the properties of cement materials. However, its effectiveness in improving the properties of cement-based materials is hindered by the poor dispersion of NS within the cement matrix. In this work, the dispersibility of NS in cement solut...

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Published inCase Studies in Construction Materials Vol. 22; p. e04125
Main Authors Zhang, Tonghuan, Wang, Zhenjun, Wang, Wei, Li, Gang, Guo, Haoyan, Zhang, Haibao
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2025
Elsevier
Subjects
Cement
Dispersion
Microstructures
Nano-silica
Water reducers
Microstructures
Nano-silica
Dispersion
Cement
Water reducers
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Summary:Nano-silica (NS) exhibits significant potential for enhancing the properties of cement materials. However, its effectiveness in improving the properties of cement-based materials is hindered by the poor dispersion of NS within the cement matrix. In this work, the dispersibility of NS in cement solutions was improved by water reducers (FDN-C naphthalene water reducer and PCE-11 polycarboxylate superplasticizer) and mechanical dispersion methods (ultrasonication and magnetic stirrer), and their synergistic effects were investigated by ultraviolet visible spectrophotometry and zeta potential tests. Effects and mechanism of NS dispersibility on microstructure and properties of NS modified cement pastes (NS-C) were also investigated and analyzed. Results indicate that polycarboxylate superplasticizers have stronger adsorption on the surface of NS particles compared with naphthalene water reducers, which effectively improved the dispersion stability of NS in cement solutions. Furthermore, ultrasonication can ensure better dispersion of NS than magnetic stirrer. The synergistic effects of 1.0 % polycarboxylate superplasticizers and 1 h of ultrasonication enhances the dispersion of NS aggregates, thereby promoting the hydration reaction of cement and refining the pore structure. Additionally, this synergistic effect improves the workability and the compressive strength of NS-C. Thermogravimetric (TG) and industrial computed tomography (ICT) results indicated that the increase in C-S-H gel and the reduction in the volume of large pores (greater than 10 mm3) in NS-C dispersed synergistically with 1 % polycarboxylate superplasticizers and 1 h of ultrasonication are the mainly reasons for the improvement in compressive strength.
ISSN:2214-5095
2214-5095
DOI:10.1016/j.cscm.2024.e04125