Finely ground mineral powders are known to accelerate cement hydration rates. This filler effect has been attributed to the effects of dilution (w/c increase) when the cement content is reduced or to the provision of additional surface area by fine powders. The latter contribution (i.e., surface area increase) is speculated to provide additional sites for the nucleation of the hydration products, which accelerates reactions. Through extensive experimentation and simulation this study describes the influence of surface area and mineral type (e.g., quartz or limestone) on cement reaction rates. Simulations using a boundary nucleation and growth (BNG) model and a multiphase reaction ensemble (MRE) indicate that the extent of the acceleration...
Partial replacement of ordinary portland cement by silica fume (SF) accelerates its rate of hydratio...
Early-age hydration of ordinary Portland cement is now acknowledged to originate from nucleation and...
Supplementary cementitious materials (SCMs) enhance early hydration of cement through theprovision o...
Finely ground mineral powders are known to accelerate cement hydration rates. This “filler effect” h...
The partial replacement of ordinary portland cement (OPC) by fine mineral fillers accelerates the ra...
The partial replacement of ordinary portland cement (OPC) by fine mineral fillers accelerates the ra...
The addition of finely pulverized materials such as limestone and quartz has been observed to increa...
<p>A complete understanding of the mechanisms upon which a filler acts in a cement-based material, e...
ABSTRACT Quartz particles have been used to investigate the filler effect of slag in cement paste. T...
Early-age hydration of cement is enhanced by slightly soluble mineral additives (ie, fillers, such a...
Early-age hydration of Ordinary Portland Cement (OPC) was studied in the presence of two additional ...
This paper focuses on the influence of the chemical nature and the fineness of the fillers on the hy...
Alite (impure C3S) has been studied extensively being the major and most reactive phase in ordinary ...
A commercial interest in sustainable cementing materials is driving efforts to reduce the use of cem...
A commercial interest in sustainable cementing materials is driving efforts to reduce the use of cem...
Partial replacement of ordinary portland cement by silica fume (SF) accelerates its rate of hydratio...
Early-age hydration of ordinary Portland cement is now acknowledged to originate from nucleation and...
Supplementary cementitious materials (SCMs) enhance early hydration of cement through theprovision o...
Finely ground mineral powders are known to accelerate cement hydration rates. This “filler effect” h...
The partial replacement of ordinary portland cement (OPC) by fine mineral fillers accelerates the ra...
The partial replacement of ordinary portland cement (OPC) by fine mineral fillers accelerates the ra...
The addition of finely pulverized materials such as limestone and quartz has been observed to increa...
<p>A complete understanding of the mechanisms upon which a filler acts in a cement-based material, e...
ABSTRACT Quartz particles have been used to investigate the filler effect of slag in cement paste. T...
Early-age hydration of cement is enhanced by slightly soluble mineral additives (ie, fillers, such a...
Early-age hydration of Ordinary Portland Cement (OPC) was studied in the presence of two additional ...
This paper focuses on the influence of the chemical nature and the fineness of the fillers on the hy...
Alite (impure C3S) has been studied extensively being the major and most reactive phase in ordinary ...
A commercial interest in sustainable cementing materials is driving efforts to reduce the use of cem...
A commercial interest in sustainable cementing materials is driving efforts to reduce the use of cem...
Partial replacement of ordinary portland cement by silica fume (SF) accelerates its rate of hydratio...
Early-age hydration of ordinary Portland cement is now acknowledged to originate from nucleation and...
Supplementary cementitious materials (SCMs) enhance early hydration of cement through theprovision o...