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Main Author: Mensah, Prince Romeo
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.15452
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author Mensah, Prince Romeo
author_facet Mensah, Prince Romeo
contents We consider a solute-solvent-structure mutually coupled system of equations given by an Oldroyd-type model for a two-dimensional dilute corotational polymer fluid with solute diffusion and damping that is interacting with a one-dimensional viscoelastic shell. Firstly, we give the rate at which its solution decays exponentially in time to the equilibrium solution, independent of the choice of the initial datum. Secondly, as the polymer relaxation time goes to infinity (or, equivalently, the center-of mass diffusion goes to zero), we show that any family of strong solutions of the system described above, that is parametrized by the relaxation time, converges to an essentially bounded weak solution of a corotational polymer fluid-structure interaction system whose solute evolves according to the convected time derivative of its extra stress tensor. A consequence of this is a weak-strong uniqueness result.
format Preprint
id arxiv_https___arxiv_org_abs_2505_15452
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Equilibration and convected limit in 2D-1D corotational Oldroyd's fluid-structure interaction
Mensah, Prince Romeo
Analysis of PDEs
We consider a solute-solvent-structure mutually coupled system of equations given by an Oldroyd-type model for a two-dimensional dilute corotational polymer fluid with solute diffusion and damping that is interacting with a one-dimensional viscoelastic shell. Firstly, we give the rate at which its solution decays exponentially in time to the equilibrium solution, independent of the choice of the initial datum. Secondly, as the polymer relaxation time goes to infinity (or, equivalently, the center-of mass diffusion goes to zero), we show that any family of strong solutions of the system described above, that is parametrized by the relaxation time, converges to an essentially bounded weak solution of a corotational polymer fluid-structure interaction system whose solute evolves according to the convected time derivative of its extra stress tensor. A consequence of this is a weak-strong uniqueness result.
title Equilibration and convected limit in 2D-1D corotational Oldroyd's fluid-structure interaction
topic Analysis of PDEs
url https://arxiv.org/abs/2505.15452