Keyphrases
Ordinary Portland Cement
100%
Early Hydration
100%
Autocatalytic Reaction
50%
Active nucleation Site
30%
Limestone Filler
30%
Reaction Mode
20%
Reaction Modeling
20%
Calcium-silicate-hydrate (C-S-H)
20%
Acceleration Mechanism
20%
Crystal Growth
10%
Calorimeters
10%
Nucleation Growth
10%
Inflection Point
10%
Commons Theory
10%
Semi-adiabatic Calorimetry
10%
Nucleation Site
10%
Induction Period
10%
Heat Development
10%
Autocatalytic
10%
Supplementary Cementitious Materials
10%
Mode Change
10%
Interparticle Distance
10%
Portland Cement Hydration
10%
Nucleation Theory
10%
Early-age Strength Development
10%
Autocatalytic Model
10%
Reaction Principle
10%
INIS
surfaces
100%
portland cement
100%
hydration
100%
nucleation
41%
fillers
33%
modeling
25%
limestone
25%
acceleration
16%
calcium silicates
16%
hydrates
16%
induction
8%
particles
8%
heat
8%
crystal growth
8%
distance
8%
curves
8%
calorimeters
8%
calorimetry
8%
Engineering
Ordinary Portland Cement
100%
Nucleation Site
80%
Limestone Filler
60%
Calcium Silicate Hydrate
40%
Strength Development
20%
Calorimeter
20%
Portland Cement Hydration
20%
Age Strength
20%
Supplementary Cementitious Material
20%
Induction Period
20%
Inflection Point
20%
Material Science
Portland Cement
100%
Nucleation
100%
Surface (Surface Science)
80%
Silicate
40%
Cementitious Material
20%
Cement Hydration
20%
Calorimetry
20%
Crystal Growth
20%
Chemical Engineering
Calcium Silicate
100%
Calorimetry
50%
Cementitious
50%