Add to ORKGThe hydration of cement is often modeled as a phase boundary nucleation and growth (pBNG) process. Classical pBNG models, based on the use of isotropic and constant growth rate of the main hydrate, that is, calcium-silicate-hydrate (C-S-H), are unable to explain the lack of any significant effect of the water-to-cement (w/c) ratio on the hydration kinetics of cement. This paper presents a modified form of the pBNG model, in which the anisotropic growth of C-S-H is allowed to vary in relation to the nonlinear evolution of its supersaturation in solution. Results show that once the supercritical C-S-H nuclei form, their growth remains confined within a region in proximity to the cement particles. This is hypothesized to be a manifestation of ...
Equilibrium thermodynamic calculations, coupled to a kinetic model for the dissolution rates of clin...
This study deals with multi-scale kinetics study of blended cements containing supplementary cementi...
This study deals with multi-scale kinetics study of blended cements containing supplementary cementi...
The hydration of cement is often modeled as a phase boundary nucleation and growth (pBNG) process. C...
Calcium-silicate hydrate (commonly referred to as C–S–H in cement chemistry) is the main phase and t...
”The hydration of multi-phase ordinary Portland cement (OPC) and its pure phase derivatives, such as...
This paper presents a new cement hydration model (HYDCEM) to predict the microstructure evolution of...
Cement paste is the most widely used artificial material on Earth, causing massive CO2 emissions. To...
Cement paste is the most widely used artificial material on Earth, causing massive CO2 emissions. To...
A new modelling framework, called μic, has been developed to enable simulations of complex particula...
Partial replacement of ordinary portland cement by silica fume (SF) accelerates its rate of hydratio...
This paper presents a new cement hydration model to predict the microstructure evolution of hydratin...
Calcium-silicate hydrate (C-S-H) is the main binding agent in cement and concrete. It forms at the b...
Progress in understanding hydration mechanisms of alite and Portland cement is reviewed. Up to the e...
Efforts to model and simulate the highly complex cement hydration process over the past 40 years are...
Equilibrium thermodynamic calculations, coupled to a kinetic model for the dissolution rates of clin...
This study deals with multi-scale kinetics study of blended cements containing supplementary cementi...
This study deals with multi-scale kinetics study of blended cements containing supplementary cementi...
The hydration of cement is often modeled as a phase boundary nucleation and growth (pBNG) process. C...
Calcium-silicate hydrate (commonly referred to as C–S–H in cement chemistry) is the main phase and t...
”The hydration of multi-phase ordinary Portland cement (OPC) and its pure phase derivatives, such as...
This paper presents a new cement hydration model (HYDCEM) to predict the microstructure evolution of...
Cement paste is the most widely used artificial material on Earth, causing massive CO2 emissions. To...
Cement paste is the most widely used artificial material on Earth, causing massive CO2 emissions. To...
A new modelling framework, called μic, has been developed to enable simulations of complex particula...
Partial replacement of ordinary portland cement by silica fume (SF) accelerates its rate of hydratio...
This paper presents a new cement hydration model to predict the microstructure evolution of hydratin...
Calcium-silicate hydrate (C-S-H) is the main binding agent in cement and concrete. It forms at the b...
Progress in understanding hydration mechanisms of alite and Portland cement is reviewed. Up to the e...
Efforts to model and simulate the highly complex cement hydration process over the past 40 years are...
Equilibrium thermodynamic calculations, coupled to a kinetic model for the dissolution rates of clin...
This study deals with multi-scale kinetics study of blended cements containing supplementary cementi...
This study deals with multi-scale kinetics study of blended cements containing supplementary cementi...