A. Jung, O. Weichold
Soft Matter. 2018
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Preparation and characterisation of highly alkaline hydrogels for the re-alkalisation of carbonated cementitious materials
ABSTRACT:
Highly alkaline hydrogels that allow the restoration of alkaline buffer
in cementitious materials can be obtained from diallyldimethylammonium
hydroxide. The latter must be prepared in dilute solutions and
polymerised at ambient temperatures in order to avoid decomposition.
Using methacrylamide as a neutral co-monomer capable of forming hydrogen
bonds, the rheological properties of the gels can be adjusted over a
wide range; e.g. the viscosity increases a thousandfold from 0.35 Pa·s
to 4350 Pa·s by using 10 mol% methacrylamide. For the proof of principle
experiments, gels with 9 mol% methacrylamide were used, which contain
approx. 1.6 mol hydroxide ions per kg gel. Ion exchange between this and
a neutral chloride containing gel provided an apparent diffusion
coefficient of 4.12·10−7 m2 s−1 for the hydroxide ions and confirmed the
transport of chloride ions into the alkaline gel. The re-alkalisation
was tested on fully carbonated mortar prisms made from Portland cement.
Re-alkalisation of the mortar was confirmed by the phenolphthalein test
according to DIN EN 14630:2007-01 and by a control experiment with pure
calcium carbonate using IR spectroscopy.