Bridging Overlapping 2D Coarse and Fine Meshes Within the Phase Field Fracture Method

IF 2.7 3区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

International Journal for Numerical Methods in Engineering Pub Date : 2025-05-07 DOI:10.1002/nme.70043

Zakaria Chafia, Julien Yvonnet, Jérémy Bleyer

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Abstract

A framework is proposed to bridge coarse and fine meshes in a single simulation within the phase field method for fracture. Fine meshes are used in the vicinity of localized defects to accurately capture crack initiation, while coarse meshes are used away from initial defects and include only crack propagation paths. This reduces the prohibitive computational times associated with uniformly fine meshes over the entire domain, or with the use of complex adaptive meshes in the phase field method. The coupling between the two overlapping meshes is achieved using a variational formulation in which the energies of the models associated with the fine and coarse meshes are weighted in the superposition zone. Two situations are considered. The first includes the resolution of the phase field problem only in the fine mesh, while the coarse mesh is limited to the undamaged elastic problem. In the second situation, cracks can propagate in both the fine and coarse mesh. Variational formulations and associated finite element implementations are detailed. Numerical examples are presented, showing the potential of this approach to significantly reduce computational costs in the phase field method for cracking without affecting the accuracy.

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相场断裂法内桥接重叠二维粗、细网格

提出了一种基于相场法的断裂单次模拟粗网格和细网格的桥接框架。在局部缺陷附近使用细网格来精确捕捉裂纹的起裂，而在远离初始缺陷的地方使用粗网格，只包括裂纹的扩展路径。这减少了与整个域上均匀精细网格相关的令人禁止的计算时间，或者在相场方法中使用复杂的自适应网格。两个重叠网格之间的耦合是通过变分公式实现的，其中与细网格和粗网格相关的模型的能量在叠加区加权。这里考虑了两种情况。第一种方法只解决了细网格的相场问题，而粗网格只解决了未损伤的弹性问题。在第二种情况下，裂纹在细网格和粗网格中都可以扩展。变分公式和相关的有限元实现的详细。数值算例表明，该方法在不影响裂纹精度的情况下，显著降低了相场法的计算成本。

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来源期刊

International Journal for Numerical Methods in Engineering 工程技术-工程：综合

CiteScore

5.70

自引率

6.90%

发文量

276

审稿时长

5.3 months

期刊介绍： The International Journal for Numerical Methods in Engineering publishes original papers describing significant, novel developments in numerical methods that are applicable to engineering problems. The Journal is known for welcoming contributions in a wide range of areas in computational engineering, including computational issues in model reduction, uncertainty quantification, verification and validation, inverse analysis and stochastic methods, optimisation, element technology, solution techniques and parallel computing, damage and fracture, mechanics at micro and nano-scales, low-speed fluid dynamics, fluid-structure interaction, electromagnetics, coupled diffusion phenomena, and error estimation and mesh generation. It is emphasized that this is by no means an exhaustive list, and particularly papers on multi-scale, multi-physics or multi-disciplinary problems, and on new, emerging topics are welcome.