Early-age hydration of ordinary Portland cement is now acknowledged to originate from nucleation and crystal growth of calcium-silicate-hydrates. The acceleration mechanism of water-soluble inorganic substances, such as calcium chloride, is still unclear. In the present study, the acceleration mechanism was approached in two independent ways. First, the acceleration effect of filler materials (limestone and quartz powder) and calcium chloride (CaCl2) were studied experimentally with a conduction calorimeter. Second, the calcium chloride effect was studied with thermodynamic modelling. The experimental test results showed that the filler materials accelerated the acceleration period of ordinary Portland cement hydration, whereas calcium chlo...
A theoretical model of the nucleation of portlandite is proposed, and the critical size of a portlan...
The objective of this study is to evaluate the early age hydration mechanisms of accelerated CEM I p...
Progress in understanding hydration mechanisms of alite and Portland cement is reviewed. Up to the e...
Early-age hydration of ordinary Portland cement is now acknowledged to originate from nucleation and...
The addition of finely pulverized materials such as limestone and quartz has been observed to increa...
This paper focuses on the influence of the chemical nature and the fineness of the fillers on the hy...
This paper focuses on the influence of the chemical nature and the fineness of the fillers on the hy...
Early-age hydration of Ordinary Portland Cement (OPC) was studied in the presence of two additional ...
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...
The current state of knowledge of cement hydration mechanisms is reviewed, including the origin of t...
ABSTRACT Quartz particles have been used to investigate the filler effect of slag in cement paste. T...
Finely ground mineral powders are known to accelerate cement hydration rates. This filler effect h...
Finely ground mineral powders are known to accelerate cement hydration rates. This “filler effect” h...
A theoretical model of the nucleation of portlandite is proposed, and the critical size of a portlan...
A theoretical model of the nucleation of portlandite is proposed, and the critical size of a portlan...
The objective of this study is to evaluate the early age hydration mechanisms of accelerated CEM I p...
Progress in understanding hydration mechanisms of alite and Portland cement is reviewed. Up to the e...
Early-age hydration of ordinary Portland cement is now acknowledged to originate from nucleation and...
The addition of finely pulverized materials such as limestone and quartz has been observed to increa...
This paper focuses on the influence of the chemical nature and the fineness of the fillers on the hy...
This paper focuses on the influence of the chemical nature and the fineness of the fillers on the hy...
Early-age hydration of Ordinary Portland Cement (OPC) was studied in the presence of two additional ...
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...
The current state of knowledge of cement hydration mechanisms is reviewed, including the origin of t...
ABSTRACT Quartz particles have been used to investigate the filler effect of slag in cement paste. T...
Finely ground mineral powders are known to accelerate cement hydration rates. This filler effect h...
Finely ground mineral powders are known to accelerate cement hydration rates. This “filler effect” h...
A theoretical model of the nucleation of portlandite is proposed, and the critical size of a portlan...
A theoretical model of the nucleation of portlandite is proposed, and the critical size of a portlan...
The objective of this study is to evaluate the early age hydration mechanisms of accelerated CEM I p...
Progress in understanding hydration mechanisms of alite and Portland cement is reviewed. Up to the e...