Filler cement: The effect of the secondary component on the hydration of Portland cement: Part 2: Fine hydraulic binders

Two series of pastes were prepared having a water to solids ratio of 0.71. The first contained an ordinary Portland cement and the second contained the same cement blended with Rutile (a fine, non-hydraulic filler). The presence of the fine powder is shown to enhance the degree of hydration of the m

The hydration of portland cement in presence of citric acid has been investigated. The results indicate that O.l% citric acid accelerates whereas too high a dose (> 0.1%) of citric acid retards the hydration. Electrical conductivity measurements of the paste indicate that in the presence of citric a

Conduction calorimetry has been used to study the patterns of early heat evolution during the hydration of Portland cement. In particular, the effect of sulphate on the rate of heat liberation has been investigated with reference to the differences observed depending on whether the sulphate is prese

Studies of porous hydrated portland cement have been carried out to assess quantitatively some aspects of microstructural deformation due to applied stress. Hydrated portland cement paste cured for six years at a water/cement ratio of 0.6 was sliced into discs 1.25 m~ thick. These were positioned in

An optical interference method shows that at early stages of hydration there is a significant increase in size of individual cement grains. The effect of applied hydrostatic pressure on cement pastes is an increase in the degree of hydration. Explanations for these effects are given in terms of the