Scaling effects on the periodic homogenization of a reaction-diffusion-convection problem posed in homogeneous domains connected by a thin composite layer

IF 0.9 4区数学 Q3 MATHEMATICS, APPLIED

Quarterly of Applied Mathematics Pub Date : 2021-07-18 DOI:10.1090/qam/1607

Vishnu Raveendran, E. Cirillo, I. Bonis, A. Muntean

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引用次数: 6

Abstract

We study the question of periodic homogenization of a variably scaled reaction-diffusion problem with non-linear drift posed for a domain crossed by a flat composite thin layer. The structure of the non-linearity in the drift was obtained in earlier works as hydrodynamic limit of a totally asymmetric simple exclusion process (TASEP) for a population of interacting particles crossing a domain with obstacle. Using energy-type estimates as well as concepts like thin-layer convergence and two-scale convergence, we derive the homogenized evolution equation and the corresponding effective model parameters for a regularized problem. Special attention is paid to the derivation of the effective transmission conditions across the separating limit interface in essentially two different situations: (i) finitely thin layer and (ii) infinitely thin layer. This study should be seen as a preliminary step needed for the investigation of averaging fast non-linear drifts across material interfaces—a topic with direct applications in the design of thin composite materials meant to be impenetrable to high-velocity impacts.

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由薄复合层连接的均匀域中反应-扩散-对流问题周期均匀化的标度效应

我们研究了一个具有非线性漂移的变尺度反应扩散问题的周期均匀化问题，该问题是由平坦的复合材料薄层穿过的区域提出的。漂移中的非线性结构是在早期的工作中获得的，作为穿过有障碍物的区域的相互作用粒子群体的完全不对称简单排斥过程（TASEP）的流体动力学极限。利用能量类型估计以及薄层收敛和两尺度收敛等概念，我们导出了正则化问题的齐化演化方程和相应的有效模型参数。特别注意在本质上两种不同的情况下穿过分离极限界面的有效传输条件的推导：（i）有限薄层和（ii）无限薄层。这项研究应被视为研究材料界面上快速非线性漂移平均值所需的初步步骤，这一主题在设计不受高速冲击的薄复合材料方面有直接应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Quarterly of Applied Mathematics 数学-应用数学

CiteScore

1.90

自引率

12.50%

发文量

审稿时长

>12 weeks

期刊介绍： The Quarterly of Applied Mathematics contains original papers in applied mathematics which have a close connection with applications. An author index appears in the last issue of each volume. This journal, published quarterly by Brown University with articles electronically published individually before appearing in an issue, is distributed by the American Mathematical Society (AMS). In order to take advantage of some features offered for this journal, users will occasionally be linked to pages on the AMS website.