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Thursday, 27 February 2020
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Raw materials & technologies, Technologies

Internal curing with superabsorbent polymers of different chemical structures

Friday, 7 February 2020

A recent study investigates the absorption behavior of superabsorbent polymer (SAP) with different chemical structures and their effect on cement hydration, early-age autogenous shrinkage and mechanical properties of cement paste.

The study investigates the effect of superabsorbent polymer on cement hydration. Image source: Free-Photos - Pixabay. (symbol image)

The study investigates the effect of superabsorbent polymer on cement hydration. Image source: Free-Photos - Pixabay. (symbol image)

Also the effect on early-age autogenous shrinkage and mechanical properties of cement paste were examined.

SAP with high density of anionic functional groups absorbed the cement pore solution quickly, and then released it because the anionic groups on the network of SAP complexed with multivalent cations in the pore solution (e.g., Ca2+).

Much less release was measured for SAP with low density of anionic groups. Furthermore, SAP with either both anionic and cationic groups or with only non-ionic groups did not release the liquid.

Counteract autogenous shrinkage

Despite their different behavior in solutions, all SAP were able to counteract autogenous shrinkage. SAP with either both ionic groups or high density of anionic groups showed excellent internal curing effect. The internal curing had no negative effect on the compressive strength of the paste when the total cement-to-water ratio was considered.

The study can be found in Cement and Concrete Research, Volume 123.

Image source: Pixabay

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