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Main Authors: Nan, Yuzhou, Wang, Yajun, Ye, Changqing, Guan, Xiaofei
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.13644
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author Nan, Yuzhou
Wang, Yajun
Ye, Changqing
Guan, Xiaofei
author_facet Nan, Yuzhou
Wang, Yajun
Ye, Changqing
Guan, Xiaofei
contents Multiscale modeling and analysis of multiphysics coupling processes in highly heterogeneous media present significant challenges. In this paper, we propose a novel multiphysics embedding localized orthogonal decomposition (ME-LOD) method for solving thermomechanical coupling problems, which also provides a systematic approach to address intricate coupling effects in multiphysical systems. Unlike the standard localized orthogonal decomposition (LOD) method that constructs separate multiscale spaces for each physical field, the proposed method features a unified construction for both displacement and temperature. Compared to the standard LOD method, our approach achieves operator stability reconstruction through orthogonalization while preserving computational efficiency. Several numerical experiments demonstrate that the ME-LOD method outperforms the traditional LOD method in accuracy, particularly in cases with significant contrasts in material properties.
format Preprint
id arxiv_https___arxiv_org_abs_2507_13644
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Multiphysics embedding localized orthogonal decomposition for thermomechanical coupling problems
Nan, Yuzhou
Wang, Yajun
Ye, Changqing
Guan, Xiaofei
Numerical Analysis
Multiscale modeling and analysis of multiphysics coupling processes in highly heterogeneous media present significant challenges. In this paper, we propose a novel multiphysics embedding localized orthogonal decomposition (ME-LOD) method for solving thermomechanical coupling problems, which also provides a systematic approach to address intricate coupling effects in multiphysical systems. Unlike the standard localized orthogonal decomposition (LOD) method that constructs separate multiscale spaces for each physical field, the proposed method features a unified construction for both displacement and temperature. Compared to the standard LOD method, our approach achieves operator stability reconstruction through orthogonalization while preserving computational efficiency. Several numerical experiments demonstrate that the ME-LOD method outperforms the traditional LOD method in accuracy, particularly in cases with significant contrasts in material properties.
title Multiphysics embedding localized orthogonal decomposition for thermomechanical coupling problems
topic Numerical Analysis
url https://arxiv.org/abs/2507.13644