The Effect of TiO(2) Doped Photocatalytic Nano-Additives on the Hydration and Microstructure of Portland and High Alumina Cements

Mortars with two different binders (Portland cement (PC) and high alumina cement (HAC)) were modified upon the bulk incorporation of nano-structured photocatalytic additives (bare TiO(2), and TiO(2) doped with either iron (Fe-TiO(2)) or vanadium (V-TiO(2))). Plastic and hardened state properties of these mortars were assessed in order to study the influence of these nano-additives. Water demand was increased, slightly by bare TiO(2) and Fe-TiO(2), and strongly by V-TiO(2), in agreement with the reduction of the particle size and the tendency to agglomerate. Isothermal calorimetry showed that hydration of the cementitious matrices was accelerated due to additional nucleation sites offered by the nano-additives. TiO(2) and doped TiO(2) did not show pozzolanic reactivity in the binding systems. Changes in the pore size distribution, mainly the filler effect of the nano-additives, accounted for the increase in compressive strengths measured for HAC mortars. A complex microstructure was seen in calcium aluminate cement mortars, strongly dependent on the curing conditions. Fe-TiO(2) was found to be homogeneously distributed whereas the tendency of V-TiO(2) to agglomerate was evidenced by elemental distribution maps. Water absorption capacity was not affected by the nano-additive incorporation in HAC mortars, which is a favourable feature for the application of these mortars.