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Rheological property evolution in concentrated cement-polyelectrolyte suspensions
Glen H. Kirby, Jennifer A. Lewis
University of Illinois Urbana-Champaign
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Keyphrases
Calorimetry Measurement
20%
Cement Paste
20%
Cement System
20%
Cement Type
20%
Contact Point
20%
Early Hydration
20%
Elastic Properties
20%
Evolution Behavior
20%
G-value
60%
High Shear
20%
Hydration Behavior
40%
Hydration Time
40%
Initial Setting
20%
Initial Stability
20%
Interparticle Interactions
20%
Particle Network
20%
Polyelectrolyte
100%
Property Evolution
100%
Rheological Properties
100%
Shear Conditions
20%
Solid Bridge
20%
White Portland Cement
20%
Engineering
Cement Paste
100%
Contact Point
100%
Early Stage
100%
Initial Stability
100%
Measured Value
100%
Portland Cement
100%
Material Science
Calorimetry
20%
Cement Paste
20%
Elastic Property
20%
Interparticle Force
20%
Polyelectrolyte
100%
Portland Cement
20%