Improvement in the geopolymer-to-steel bond using a reactive vitreous enamel coating

Improvement in the geopolymer-to-steel bond using a reactive vitreous enamel coating

•Bond strength characterization between reinforcing steel and geopolymer composites.•Reactive vitreous enamel coatings developed to improve bond strength.•Coating results in approximately 2.5 times increase in bond strength.•Microstructural characterization shows a gradual transition in interfacial...

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Bibliographic Details
Published in:Construction & building materials Vol. 49; pp. 62 - 69
Main Authors: Moser, R.D., Allison, P.G., Williams, B.A., Weiss, C.A., Diaz, A.J., Gore, E.R., Malone, P.G.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2013
Elsevier B.V
Subjects:
Analysis
Bond
Coatings
EDX
Geopolymer
Interface
Mechanical properties
Portland cement
Properties
SEM
Steel
United States
EDX
Geopolymer
SEM
Steel
Bond
Interface
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Summary:•Bond strength characterization between reinforcing steel and geopolymer composites.•Reactive vitreous enamel coatings developed to improve bond strength.•Coating results in approximately 2.5 times increase in bond strength.•Microstructural characterization shows a gradual transition in interfacial transition zone microstructure and chemistry. This study examines the effectiveness of a reactive vitreous enamel coating on the surface of reinforcing steel on bond strengths and microstructural interactions with a geopolymer-based binder. Steel rods with and without the glassy enamel coating rich in Al, Si, and Ca were tested for bond strength when embedded in a Class F fly ash geopolymer. Microstructural characterization using scanning electron microscopy and energy-dispersive X-ray spectroscopy was also used to investigate the spatial distribution in microstructure and chemistry at the interface. The use of a reactive enamel coating on reinforcement was found to increase bond strengths by approximately 2.5 times based on push-out test specimens. The presence of the reactive enamel coating was found to decrease porosity at the interface and also provide a more gradual transition in microstructure and chemistry between the steel reinforcement and the geopolymeric matrix. Results of the study support investigation of the developed coating system for reinforcing bars, fibers, and stay-in-place formwork systems.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2013.08.001