触粘塑性流动模拟的单片牛顿-多网格有限元方法

IF 1.7 4区工程技术 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

International Journal for Numerical Methods in Fluids Pub Date : 2024-12-28 DOI:10.1002/fld.5360

Naheed Begum, Abderrahim Ouazzi, Stefan Turek

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引用次数: 0

摘要

在本文中，我们将关注整体牛顿-多网格有限元法（FEM）的发展，应用和数值分析，以模拟触粘塑性（TVP）流动。我们证明了牛顿-多网格有限元求解器的鲁棒性和效率对于获得精确解的重要性。为了更好地理解TVP流动问题的精确数值解，我们将研究内容扩展到TVP准牛顿建模方法，并对盖驱动的腔体流动进行了广泛的分析，并揭示了触变尺度在4:1收缩配置应用中的影响。fldauth。为国际流体数值方法期刊设置论文的类文件。版权所有2010 John Wiley &；在本文中，我们将关注整体牛顿-多网格有限元法（FEM）的发展，应用和数值分析，以模拟触粘塑性（TVP）流动。我们证明了牛顿-多网格有限元求解器的鲁棒性和效率对于获得精确解的重要性。为了使我们的工作有一个正确的视角，同时考虑到获得TVP流动问题精确数值解的微妙挑战，我们将我们的研究限制在TVP准牛顿建模方法和盖子驱动的腔体流动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Monolithic Newton-Multigrid Finite Element Methods for the Simulation of Thixoviscoplastic Flows

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Monolithic Newton-Multigrid Finite Element Methods for the Simulation of Thixoviscoplastic Flows

In this paper, we shall be concerned with the development, application, and numerical analysis of the monolithic Newton-Multigrid finite element method (FEM) to simulate thixoviscoplastic (TVP) flows. We demonstrate the importance of robustness and efficiency of Newton-Multigrid FEM solver for obtaining accurate solutions. To put our work in proper perspective w.r.t. the delicate challenge of obtaining accurate numerical solutions for TVP flow problems, we content our investigation to TVP quasi-Newtonian modeling approach with an extensive analysis on lid-driven cavity flows, and expose the impact of thixotropic scale in 4:1 contraction configuration application. fldauth.cls class file for setting papers for the International Journal for Numerical Methods in Fluids. Copyright 2010 John Wiley & Sons Ltd.

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来源期刊

International Journal for Numerical Methods in Fluids 物理-计算机：跨学科应用

CiteScore

3.70

自引率

5.60%

发文量

111

审稿时长

8 months

期刊介绍： The International Journal for Numerical Methods in Fluids publishes refereed papers describing significant developments in computational methods that are applicable to scientific and engineering problems in fluid mechanics, fluid dynamics, micro and bio fluidics, and fluid-structure interaction. Numerical methods for solving ancillary equations, such as transport and advection and diffusion, are also relevant. The Editors encourage contributions in the areas of multi-physics, multi-disciplinary and multi-scale problems involving fluid subsystems, verification and validation, uncertainty quantification, and model reduction. Numerical examples that illustrate the described methods or their accuracy are in general expected. Discussions of papers already in print are also considered. However, papers dealing strictly with applications of existing methods or dealing with areas of research that are not deemed to be cutting edge by the Editors will not be considered for review. The journal publishes full-length papers, which should normally be less than 25 journal pages in length. Two-part papers are discouraged unless considered necessary by the Editors.