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International Journal of Material Forming

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25-05-2016 | Original Research

Flow modelling of quasi-Newtonian fluids in two-scale fibrous fabrics

Advanced simulations

Authors: Amine Ammar, Emmanuelle Abisset-Chavanne, Francisco Chinesta, Roland Keunings

Published in: International Journal of Material Forming | Issue 4/2017

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Abstract

Permeability is the fundamental macroscopic material property needed to quantify the flow in a fibrous medium viewed as a porous medium. Composite processing models require the permeability as input data to predict flow patterns and pressure fields. In a previous work, the expressions of macroscopic permeability were derived in a double-scale porosity medium for both Newtonian and generalized Newtonian (shear-thinning) resins. In the linear case, only a microscopic calculation on a representative volume is required, implying as many microscopic calculations as there are representative microscopic volumes in the whole fibrous structure. In the non-linear case, and even when the porous microstructure can be described by a unique representative volume, a large number of microscopic calculations must be carried out as the microscale resin viscosity depends on the macroscopic velocity, which in turn depends on the permeability that results from a microscopic calculation. An original and efficient offline-online procedure was proposed for the solution of non-linear flow problems related to generalized Newtonian fluids in porous media. In this paper, this procedure is generalized to quasi-Newtonian fluids in order to evaluate the effect of extensional viscosity on the resulting upscaled permeability. This work constitutes a natural step forward in the definition of equivalent saturated permeabilities for linear and non-linear fluids.

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Title: Flow modelling of quasi-Newtonian fluids in two-scale fibrous fabrics
Advanced simulations
Authors: Amine Ammar
Emmanuelle Abisset-Chavanne
Francisco Chinesta
Roland Keunings
Publication date: 25-05-2016
Publisher: Springer Paris
Published in: International Journal of Material Forming / Issue 4/2017
Print ISSN: 1960-6206
Electronic ISSN: 1960-6214
DOI: https://doi.org/10.1007/s12289-016-1300-0

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