Role of barium carbonate and barium silicate nanoparticles in the performance of cement mortar

This study investigates the impact of low-cost barium carbonate and barium silicate nanoparticles (NBC and NBS, respectively) on the performance and phase composition of cement mortar (CM). The results reveal that the individual addition of NBC and NBS causes setting times shortening and mechanical...

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Bibliographic Details
Published in:Journal of Building Engineering 2021-12, Vol.44, p.102721, Article 102721
Main Authors: Abdel-Gawwad, Hamdy A., Metwally, Khaled A., Tawfik, Taher A.
Format: Article
Language:English
Subjects:
Cement mortar
Mechanical properties
Nano-barium carbonate
Nano-barium silicate
Pozzolanic reaction
Sulfate consumption
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Summary:This study investigates the impact of low-cost barium carbonate and barium silicate nanoparticles (NBC and NBS, respectively) on the performance and phase composition of cement mortar (CM). The results reveal that the individual addition of NBC and NBS causes setting times shortening and mechanical properties increment. Nevertheless, the NBS exhibits the higher efficiency at all addition levels (1, 2, and 3% by weight of cement). The incorporation of NBC results in the consumption of sulfate within cement matrix and the formation of insoluble barite (BaSO4) and calcium monocarboaluminate phases. Although the NBS also represents high efficiency in the uptake of sulfate, the reactive silicate within NBS plays a significant role in the formation of additional calcium silicate hydrate content through the consumption of portlandite (resulted from cement hydration). This could enhance the successful application of cement-NBS mixtures as super sulfate resistant cements. •Barium carbonate and silicate nanoparticles were incorporated within cement mortar.•Nano-barium silicate exhibited higher efficiency compared to nano-barium carbonate.•Each nano-material has high ability in the retardation of ettringite formation.•Amorphous silicate within nano-barium silicate induced pozzolanic reaction.
ISSN:2352-7102
2352-7102
DOI:10.1016/j.jobe.2021.102721