Preliminary exploration of a novel high-performance air entraining agent based on sodium dodecyl sulfate added self-made fluorocarbon surfactant

Preliminary exploration of a novel high-performance air entraining agent based on sodium dodecyl sulfate added self-made fluorocarbon surfactant

[Display omitted] •A novel high-performance air entraining agent (HPAEA) was preliminarily explored by compounding sodium dodecyl sulfate (SDS) with a fluorocarbon surfactant.•The HPAEA had better foam properties, higher air content, and more superior air-void structure.•The high effectiveness of HP...

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Bibliographic Details
Published in:Construction & building materials Vol. 370; p. 130564
Main Authors: Li, Maohong, Zhou, Xingzhi, Zhao, Jumei, Qu, Shuxin, Wang, Ping, Li, Guhua
Format: Journal Article
Language:English
Published: Elsevier Ltd 17-03-2023
Subjects:
Air entraining agent
Air-void spacing factor
Fluorocarbon surfactant
High-performance
Sodium dodecyl sulfate
Surface tension
Sodium dodecyl sulfate
Surface tension
Fluorocarbon surfactant
Air entraining agent
Air-void spacing factor
High-performance
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Summary:[Display omitted] •A novel high-performance air entraining agent (HPAEA) was preliminarily explored by compounding sodium dodecyl sulfate (SDS) with a fluorocarbon surfactant.•The HPAEA had better foam properties, higher air content, and more superior air-void structure.•The high effectiveness of HPAEA was mainly attributed to the lower surface tension and better comprehensive property of the bubble liquid film. Sodium dodecyl sulfate (SDS), an air entraining agent (AEA), is used to improve the frost resistance of concrete, but the effectiveness of SDS is urgent to be improved because it is easily weakened by many factors. In this work, a novel high-performance AEA (HPAEA) was prepared by compounding sodium dodecyl sulfate (SDS) with the self-made fluorocarbon surfactant (S-FC). The performance of HPAEA in cement paste solution and in mortar were evaluated and the improvement mechanism was explored. The results of foamability and foam stability in cement paste solution, air content and air-void parameters in cement mortar showed that S-FC could greatly promote the foam properties of SDS and optimize the air-void structure in entrained mortar. When the concentration of S-FC reached 0.2 wt%, foamability, foam stability, fresh air content of HPAEA was 2.9 times, 16.5 times, and 1.6 times higher than that of SDS, respectively. The air-void spacing factor in hardened mortar was reduced by more than 50%. The improvement mechanism of the effectiveness of HPAEA was revealed by the lower surface tension and better comprehensive property of the bubble liquid film, because there was synergistic effect between SDS and S-FC. It was concluded that the novel HPAEA obtained by compounding SDS with S-FC had a potential to significantly improve the frost resistance of concrete.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2023.130564