An FFT-based method for computing weighted minimal surfaces in microstructures with applications to the computational homogenization of brittle fracture

Schneider Matti

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An FFT-based method for computing weighted minimal surfaces in microstructures with applications to the computational homogenization of brittle fracture

机译：基于FFT基于微观结构的加权最小表面的方法，其应用于脆性骨折的计算均质化

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摘要

Cell formulae for the effective crack resistance of a heterogeneous medium obeying Francfort-Marigo's formulation of linear elastic fracture mechanics have been proved recently, both in the context of periodic and stochastic homogenization. This work proposes a numerical strategy for computing the effective, possibly anisotropic, crack resistance of voxelized microstructures using the fast Fourier transform (FFT). Based on Strang's continuous minimum cut-maximum flow duality, we explore a primal-dual hybrid gradient method for computing the effective crack resistance, which may be readily integrated into an existing FFT-based code for homogenizing thermal conductivity. We close with demonstrative numerical experiments.

机译：最近在定期和随机均质化的背景下，最近已经证明了遵循Francfort-Marigo的非均相介质的有效抗裂性的细胞配方。这项工作提出了一种使用快速傅里叶变换（FFT）计算体变形微观结构的有效，可能各向异性，抗裂纹性的数值策略。基于斯特朗的连续最小切割最大流量二元性，我们探讨了用于计算有效裂缝电阻的原始双混合梯度方法，这可以容易地集成到基于FFT的基于FFT的代码中，用于均匀化导热率。我们与证明数值实验结束。

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来源
《International Journal for Numerical Methods in Engineering》 |2020年第7期|共21页
作者
Schneider Matti;
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作者单位

KIT Inst Engn Mech D-76131 Karlsruhe Germany;

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原文格式 PDF
正文语种 eng
中图分类工程数学;
关键词
brittle fracture; computational homogenization; FFT-based method; maximum flow; primal-dual algorithms;

机译：脆性骨折;计算均匀化;基于FFT的方法;最大流量;原始 - 双算法;

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专利

1. An FFT-based method for computing weighted minimal surfaces in microstructures with applications to the computational homogenization of brittle fracture [J] . Schneider Matti International Journal for Numerical Methods in Engineering . 2020,第7期

机译：基于FFT基于微观结构的加权最小表面的方法，其应用于脆性骨折的计算均质化
2. A dynamical view of nonlinear conjugate gradient methods with applications to FFT-based computational micromechanics [J] . Computational Mechanics: Solids, Fluids, Fracture Transport Phenomena and Variational Methods . 2020,第1期

机译：基于FFT的计算微机械的非线性共轭梯度方法的动态视图
3. Continuous and discrete methods based on X-ray computed-tomography to model the fragmentation process in brittle solids over a wide range of strain-rates - application to three brittle materials [J] . P. Forquin, M. Blasone, D. Georges, Journal of the Mechanics and Physics of Solids . 2021,第Jula期

机译：基于X射线计算断层扫描的连续和离散方法，在各种应变率上模拟脆性固体的碎片过程 - 应用于三种脆性材料
4. Weighted Minimal Surfaces and Discrete Weighted Minimal Surfaces [C] . Qin Zhang, Guoliang Xu International Symposium on Computing and Its Applications in Information Science(ISCIAIS 2005); 20050815-19; Hefei(CN) . 2005

机译：加权最小曲面和离散加权最小曲面
5. A model study of fracture generation in layered brittle rocks with applications to predicting subsurface fracture networks. [D] . Wu, Haiqing. 1995

机译：层状脆性岩石裂缝产生的模型研究及其在预测地下裂缝网络中的应用。
6. Analysis of Surface Extraction Methods Based on Gradient Operators for Computed Tomography in Metrology Applications [O] . Sinué Ontiveros, Roberto Jiménez, José A. Yagüe-Fabra, 2018

机译：基于梯度算子的层析成像表面提取方法在计量学中的应用分析
7. Study on Brittle Fracture Surfaces Formed at Low-temperature in Relation to Microstructures of Low Carbon Steels [O] . Fukunaga TERASAKI, Hiroo OHTANI 1972

机译：低温下形成的脆性断裂表面的研究 - 低碳钢微结构

An FFT-based method for computing weighted minimal surfaces in microstructures with applications to the computational homogenization of brittle fracture

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