The hydration of a commercial Portland cement blended with calcium carbonat
e was studied by thermal analysis. TG, DTA and DTG analyses were performed
on pastes prepared with a water to cement weight ratio of 0.5, after differ
ent setting times during the first 28 days of hydration. The analyses were
run from 28 degrees C to 1000 degrees C with a 10 degrees C/min heating rat
e and 100 ml/min of air as the purge gas. All the analyses were performed a
fter a drying step at 28 degrees C in the equipment itself, using the purge
as the drying agent, resulting in a more effective and less time-consuming
method than other conventional drying procedures.
The original cement contains a partially decomposed dihydrated calcium sulf
ate, which is regenerated after 1 h of hydration and is consumed in about 1
6 h of setting. The results indicate that TG and DTG curves are faster and
more precise tools than DTA curves to identify and to quantify all the main
hydrated and carbonated phases which are present in the pastes, especially
in the case of this cement blended with calcium carbonate, the total conte
nt of which cannot be estimated correctly by DTA as hydration proceeds. (C)
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