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Main Authors: Guigot, Corentin, Grangeat, Romain, Renaut, Gilles-Alexis
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.28117
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author Guigot, Corentin
Grangeat, Romain
Renaut, Gilles-Alexis
author_facet Guigot, Corentin
Grangeat, Romain
Renaut, Gilles-Alexis
contents Moisture diffusion in polymers and bio-based materials frequently exhibits non-Fickian behavior that cannot be described by classical diffusion models. The Langmuir model, which accounts for the coexistence of mobile and bound water molecules, has been widely used to represent such phenomena. However, analytical solutions of this model are generally limited to planar geometries, while cylindrical systems are typically investigated using numerical methods. In this work, the Langmuir diffusion model is solved analytically in cylindrical coordinates. The resulting solution provides both the local evolution of moisture content within the cylinder and the corresponding global moisture uptake kinetics. The analytical solution is validated through comparison with an independent numerical solution based on a finite difference scheme, showing excellent agreement for both the global absorption kinetics and the radial moisture profiles. The proposed formulation therefore provides a simple and efficient analytical framework for studying non-Fickian moisture diffusion in cylindrical systems such as natural fibers, and facilitates the identification of model parameters from experimental data.
format Preprint
id arxiv_https___arxiv_org_abs_2605_28117
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Analytical solution of the Langmuir model for moisture diffusion in cylindrical coordinates
Guigot, Corentin
Grangeat, Romain
Renaut, Gilles-Alexis
Materials Science
Moisture diffusion in polymers and bio-based materials frequently exhibits non-Fickian behavior that cannot be described by classical diffusion models. The Langmuir model, which accounts for the coexistence of mobile and bound water molecules, has been widely used to represent such phenomena. However, analytical solutions of this model are generally limited to planar geometries, while cylindrical systems are typically investigated using numerical methods. In this work, the Langmuir diffusion model is solved analytically in cylindrical coordinates. The resulting solution provides both the local evolution of moisture content within the cylinder and the corresponding global moisture uptake kinetics. The analytical solution is validated through comparison with an independent numerical solution based on a finite difference scheme, showing excellent agreement for both the global absorption kinetics and the radial moisture profiles. The proposed formulation therefore provides a simple and efficient analytical framework for studying non-Fickian moisture diffusion in cylindrical systems such as natural fibers, and facilitates the identification of model parameters from experimental data.
title Analytical solution of the Langmuir model for moisture diffusion in cylindrical coordinates
topic Materials Science
url https://arxiv.org/abs/2605.28117