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Home  > Raw materials & technologies  > Technologies  > The role of aluminium in C-A-S-H during su...

Thursday, 27 June 2019
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Raw materials & technologies, Technologies

The role of aluminium in C-A-S-H during sulfate attack on concrete

Wednesday, 12 June 2019

For a recent study tests with C-A-S-H phases in Na2SO4 solutions (3 and 30 g/L SO4) were carried out to study changes in the C-A-S-H nanostructure during sulfate attack on concrete.

A recent study examines the role of aluminium in C-A-S-H during sulfate attack on concrete (symbol image). Image source: Free-Photos / Pixabay.

A recent study examines the role of aluminium in C-A-S-H during sulfate attack on concrete (symbol image). Image source: Free-Photos / Pixabay.

Durung the studies, particular attention was paid to the availability of aluminium in C-A-S-H for ettringite formation. Ettringite only formed above the saturation pH of portlandite.

The removal of aluminium from C-A-S-H decreased the Al/Si ratio and mean chain length (MCL) of the C-A-S-H phases. No ettringite formed in solutions below the saturation pH of portlandite. Here, decalcification of the C-A-S-H phases resulted in an increase in MCL.

Controlled by the availability of calcium

The formation of ettringite from aluminium in C-A-S-H exposed to Na2SO4 solutions is controlled by the availability of calcium. Sodium is adsorbed on deprotonated silanol groups in C-A-S-H. At 3 g/L SO4, the SO42− ions are adsorbed with calcium on deprotonated silanol groups, but at 30 g/L SO4, they are also bonded to other sites in C-A-S-H.

The study has been published in Cement and Concrete Research, Volume 116.

Image source: Pixabay.

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