Critical aspects in the handling of reactive silica in cementitious materials: Effectiveness of rice husk ash vs nano-silica in mortar dosage

[Display omitted] •Rice husk ash is an environmental alternative in the cementitious materials production.•The use of nano-silica entails a significant economic cost.•The handling of rice husk ash is healthier than the use of nano-silica.•Nano-silica addition improves mechanical and durability behav...

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Bibliographic Details
Published in:Construction & building materials 2019-10, Vol.223, p.360-367
Main Authors: Torres-Carrasco, M., Reinosa, J.J., de la Rubia, M.A., Reyes, E., Alonso Peralta, F., Fernández, J.F.
Format: Article
Language:English
Subjects:
Cement
Health
Mortar
Nano-silica
Rice husk ash
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Summary:[Display omitted] •Rice husk ash is an environmental alternative in the cementitious materials production.•The use of nano-silica entails a significant economic cost.•The handling of rice husk ash is healthier than the use of nano-silica.•Nano-silica addition improves mechanical and durability behaviour. Nano-silica addition improves mechanical and durability behavior in mortars. However, nanomaterial handling requires use of occupational risk prevention measures as Individual Protection Equipment for the workers. Moreover, the high agglomeration of nanomaterials produces uncertainty in the expected mortar performance. Rice husk ash as a source of reactive silica in cement compositions is compared with nano-silica. The use of rice husk ash provides similar physical-chemical cementitious materials than other commercial nano-silica providing relevant differences during the composition. Near 50% wt of volatility is found for the silica nanoparticles during the handling dosage. Thus, the rice husk ash presents a reduced volatility, ∼12% wt and it allows ensuring high content with adequate workability. Mortars with addition of rice husk ash reach higher compressive strength and resistivity in correlation with lower porosity. For that, the use of rice husk ash is viable as safer alternative material than nano-silica in the cementitious compositions. In addition, as the rice husk ash comes from agricultural waste resources their use as secondary raw material will contributes to circularity in the economy by reducing engineered nanomaterials consumption.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2019.07.023