Influence of rheological and fresh-state properties on formwork pressure of self-compacting concrete

Influence of rheological and fresh-state properties on formwork pressure of self-compacting concrete

Abstarct: This study details an experimental analysis of the effect of rheological parameters and fresh-state properties of self-compacting concrete (SCC) on the formwork pressure exerted by it. Twenty-one different SCC mixtures were manufactured with increasing concentrations of air entraining agen...

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Bibliographic Details
Main Authors: Mouhcine Benaicha, Olivier Jalbaud, Xavier Roguiez, Adil Hafidi ALaoui, Yves Burtschell
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:Results in Engineering
Subjects:
Self-compacting concrete
Formwork pressure
Rheological properties
Air content
Predictive models
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123025023059
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Summary:Abstarct: This study details an experimental analysis of the effect of rheological parameters and fresh-state properties of self-compacting concrete (SCC) on the formwork pressure exerted by it. Twenty-one different SCC mixtures were manufactured with increasing concentrations of air entraining agent (AEA), thereby resulting in systematic changes to yield stress, plastic viscosity, air content, and density at fresh state. Formwork pressure was monitored in a vertical channel with 4 pressure sensors flush mounted only a few millimeters from the surface of the concrete. Maximum lateral pressures were measured at Sensor 2 in the channel with a reading of 113.92 kPa at mid height, and Sensor 4 measured maximum vertical pressure at the base of 176.43 kPa which indicates nearly hydrostatic behavior of the high-fluidity mixtures. Regression analysis showed a strong inverse correlation with yield stress (R² = 0.89) and plastic viscosity (R² = 0.91) with pressure development, because higher yield stress and viscosity consistently showed lower pressures and more rapid decay. Returns on slump flow, V-Funnel time, l-box ratio, air content, and fresh density all revealed additional relationships which further supports the overall influence of dynamic flowability and structural build-up. The practical applications achieve a demonstration that can inform SCC mix design parameters while controlling fresh pressure and reducing risk of over-designed formwork and the enhanced safety of technical operations.
ISSN:2590-1230

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