Investigation of spray pattern in shotcrete applications

[Display omitted] •The local flow of material traveling in a shotcrete spray was investigated.•Spatial distribution of material mass flow and composition were revealed.•There is evidence of a Gaussian-type mass flow distribution around the spray axis.•There is evidence of a rich binder layer in the...

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Bibliographic Details
Published in:Construction & building materials 2015-09, Vol.93, p.966-972
Main Authors: Ginouse, Nicolas, Jolin, Marc
Format: Article
Language:English
Subjects:
Analysis
Concrete
Gunite
Mechanical properties
Nozzle
Pumping
Rebound
Shotcrete
Spray distribution
Sprayed concrete
Spraying process
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Summary:[Display omitted] •The local flow of material traveling in a shotcrete spray was investigated.•Spatial distribution of material mass flow and composition were revealed.•There is evidence of a Gaussian-type mass flow distribution around the spray axis.•There is evidence of a rich binder layer in the spray peripheral zones.•The measurements validity was confirmed using the mass conservation law. Impact kinetic energy is well known to play a central and key role on rebound and consolidation mechanisms controlling the shotcrete placement process. While the impact velocity of the traveling particles at their exit of the nozzle has received some attention recently, the mass flow distribution of the sprayed material as it impacts the receiving surface remains unexplored despite its obvious importance on rebound. In this context, a novel apparatus that collects the sprayed material traveling out of the nozzle was developed; material spatial distribution and composition are brought forward. The incident mass flow of material was found to be denser in the central region around the spray axis and decrease toward the peripheral regions following a Gaussian-type function. Additionally, a cement-rich layer formed in the spray’s peripheral zones is also revealed and its origins are discussed. In light of this work, an innovative and unique analytical characterization tool is proposed to further investigate the spraying process and to improve the understanding of shotcrete, and especially material losses through rebound.
ISSN:0950-0618
DOI:10.1016/j.conbuildmat.2015.05.061