Impact of Surfactant and Calcium Sulfate Type on Air-Entraining Effectiveness in Concrete

The paper presents the evaluation of the influence of calcium sulfate on the air void microstructure in concrete and its action mechanism depending on the character of the air-entraining agent. Gypsum dehydration has been previously proven to negatively influence the air void structure of air-entrained concrete. Ettringite, nucleating from tricalcium aluminate and calcium sulfate, influences the adsorption and mode of action of anionic-based polycarboxylate ether admixtures. The authors suspected the admixture's air-entraining mechanism was also affected by these characteristics. Gypsum dehydration was confirmed to influence the air void structure. In the case of the anionic surfactant, the content of air bubbles smaller than 300 mu m was lower compared to cement with gypsum and hemihydrate. On the other hand, the content of air voids with a diameter up to 60 mu m, which are the most favorable, was higher. The results obtained led to the conclusion that the mechanism of air entrainment was twofold, and in most cases occurred through the lowering of surface tension and/or through the adsorption of surfactant on cement grains. The adsorptive mechanism was proved to be more effective in terms of the total air content and the structure of the air void system. The results and conclusions of the study provide guidelines to determine the proper surfactant type to reduce the risk of improper air entrainment of concrete, and emphasize the importance of gypsum dehydration of cement in the process of air entrainment.

Automated summary

This paper evaluates the influence of calcium sulfate on the air void microstructure in concrete and proposes its action mechanism may depend on the character of the air-entraining agent. Gypsum dehydration is confirmed to negatively affect the air void structure. The study concludes that air entrainment has a twofold mechanism, with the adsorptive mechanism being more effective in terms of total air content and air void structure.