Studies on rheology and fresh state behavior of fly ash-slag geopolymer binders with silica

Studies on rheology and fresh state behavior of fly ash-slag geopolymer binders with silica

The rheology of fly ash-slag geopolymer binders is evaluated for different forms and dosages of dissolved silica in the alkaline activating solution. The addition of silica decreases the elastic resistance and the yield stress of the binder. The binder rheology is influenced by the polymeric form of...

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Bibliographic Details
Published in:Materials and structures Vol. 55; no. 2
Main Authors: Kamakshi, Tippabhotla A., Reddy, K. Chiranjeevi, Subramaniam, Kolluru V. L.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-03-2022
Springer Nature B.V
Subjects:
Building construction
Building Materials
Civil Engineering
Engineering
Fly ash
Geopolymers
Machines
Manufacturing
Materials Science
Original Article
Penetration resistance
Processes
Reaction kinetics
Reaction products
Reactivity
Rheological properties
Rheology
Silicon dioxide
Slag
Solid Mechanics
Stiffness
Storage modulus
Theoretical and Applied Mechanics
Thixotropy
Yield stress
Thixotropy
Fly ash-slag
Kinetics
Early age
Rheology
Yield stress
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Summary:The rheology of fly ash-slag geopolymer binders is evaluated for different forms and dosages of dissolved silica in the alkaline activating solution. The addition of silica decreases the elastic resistance and the yield stress of the binder. The binder rheology is influenced by the polymeric form of silica in the activating solution determined by the silica modulus ( M S  = SiO 2 /Na 2 O molar ratio). There is a larger decrease in the elastic component and a larger increase in the viscosity at a lower M S . Silica addition at low M S transforms the yield behavior of the binder to viscous Maxwell flow response. The changes in the fresh state influenced by thixotropy and setting are related to the early kinetics and reactivity of the slag in the binder. The silica content and the M S in the activating solution influence reaction kinetics in the binder. While the addition of silica delays the hydration of slag, there is a higher level of early reactivity associated with gel formation from the dissolved silica at a lower M S . The early chemical reactivity produced by the silica in the activating solution influences the buildup of storage modulus ( G / ) and produces set. However, the influence of early reactivity in the systems on the measured increase in G / and penetration resistance varies with silica content. While high early reactivity produces a faster setting, G / does not scale with the kinetics. Higher silica content produces a more uniform distribution of reaction products, not producing a proportional increase in stiffness.
ISSN:1359-5997
1871-6873
DOI:10.1617/s11527-022-01908-w