Homogenised balance equations for nematic liquid crystal flow in elastic porous media
Mohammed Alwady, Nigel J. Mottram, Raimondo Penta

TL;DR
This paper introduces a new model for how nematic liquid crystals flow through elastic porous materials, capturing the interaction between the fluid and the structure at different scales.
Contribution
The paper presents a novel anisotropic poro-viscoelastic model derived using asymptotic homogenisation for nematic liquid crystal flow in elastic porous media.
Findings
The angular momentum equation decouples from the fluid's linear momentum equations under the given assumptions.
The derived model incorporates the nematic director, its spatial variations, and microstructural effects through computed coefficients.
When the elastic porous structure is negligible, the fluid flow is driven by macroscale variations of the nematic director.
Abstract
We derive a new mathematical model for the macroscopic behaviour of a linear elastic porous medium weakly interacting with an incompressible, slowly flowing, nematic liquid crystal under the one elastic constant approximation and a simplified hypothesis concerning the fluid viscosities for which the stress tensor remains dependent on the nematic director, which is the average fluid molecular orientation, but is symmetric. In this situation, the angular momentum equation, which governs the dynamics of the nematic director, decouples from the linear momentum equations of the fluid. As such, whilst the nematic anisotropy affects the flow profile, the fluid flow no longer affects the configuration of the nematic director. We assume that the typical pore dimension (the microscale) is significantly smaller than the average size of the whole domain (the macroscale), and exploit this sharp…
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Taxonomy
TopicsLiquid Crystal Research Advancements · Advanced Materials and Mechanics · Advanced Mathematical Modeling in Engineering
