Numerical simulation of a class of models that combine several mechanisms of dissipation: Fracture, plasticity, viscous dissipation

Eric Bonnetier; Luká? Jakab?in; Stéphane Labbé; Anne Replumaz

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Numerical simulation of a class of models that combine several mechanisms of dissipation: Fracture, plasticity, viscous dissipation

机译：一类模型的数值模拟，该模型结合了多种耗散机制：断裂，可塑性，粘性耗散

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We study a class of time evolution models that contain dissipation mechanisms exhibited by geophysical materials during deformation: plasticity, viscous dissipation and fracture. We formally prove that they satisfy a Clausius-Duhem type inequality. We describe a semidiscrete time evolution associated with these models, and report numerical 1D and 2D traction experiments, that illustrate that several dissipation regimes can indeed take place during the deformation. Finally, we report 2D numerical simulation of an experiment by Peltzer and Tapponnier, who studied the indentation of a layer of plasticine as an analogue model for geological materials.

机译：我们研究了一类时间演化模型，其中包含地球物理材料在变形过程中表现出的耗散机制：可塑性，粘性耗散和断裂。我们正式证明它们满足Clausius-Duhem型不等式。我们描述了与这些模型相关的半离散时间演化，并报告了数值1D和2D牵引实验，这些实验说明了在变形过程中确实可以发生几种耗散状态。最后，我们报告了Peltzer和Tapponnier进行的实验的二维数值模拟，他们研究了橡皮泥层的压痕作为地质材料的模拟模型。

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《Journal of Computational Physics》 |2014年第null期|共18页
作者
Eric Bonnetier; Luká? Jakab?in; Stéphane Labbé; Anne Replumaz;
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正文语种 eng
中图分类数学物理方法;
关键词
Quasistatic evolution; Fracture; Plasticity;

机译：准静态演化;断裂;塑性;

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1. Numerical simulation of a class of models that combine several mechanisms of dissipation: Fracture, plasticity, viscous dissipation [J] . Eric Bonnetier, Luká? Jakab?in, Stéphane Labbé, Journal of Computational Physics . 2014,第Null期

机译：一类模型的数值模拟，该模型结合了多种耗散机制：断裂，可塑性，粘性耗散
2. Numerical and Computer Simulations of Cross-Flow in the Streamwise Direction through a Moving Surface Comprising the Significant Impacts of Viscous Dissipation and Magnetic Fields: Stability Analysis and Dual Solutions [J] . Yu-Ming Chu, Umair Khan, A. Zaib, Mathematical Problems in Engineering: Theory, Methods and Applications . 2020,第1期

机译：通过移动表面通过移动表面在流动方向上的交叉流动的数值和计算机模拟，包括粘性耗散和磁场的显着影响：稳定性分析和双解决方案
3. Numerical simulations and experiments on thermal viscous power dissipation of perforated plates [J] . Lijun Li, Xianyue Gang, Yiran Liu, AIP Advances . 2018,第10期

机译：多孔板热粘性功率耗散的数值模拟及实验
4. A DIRECT NUMERICAL SIMULATION ESTIMATION OF VISCOUS ENERGY DISSIPATION RATE IN TAYLOR VORTEX REACTOR [C] . Harminder Singh, Claudio Alberto Torres Suazo, Roberto de Campos Giordano, Modelling, Simulation and Identification; Intelligent Systems and Control . 2016

机译：泰勒涡旋反应器中粘性能量耗散率的直接数值模拟估计
5. Subgrid models for large eddy simulation: Scalar flux, scalar dissipation and energy dissipation. [D] . Chumakov, Sergei G. 2005

机译：大涡模拟的子网格模型：标量通量，标量耗散和能量耗散。
6. Numerical Solution of Boundary Layer MHD Flow with Viscous Dissipation [O] . S. R. Mishra, S. Jena -1

机译：黏性耗散边界层MHD流的数值解
7. Numerical simulation of a class of models that combine several mechanisms of dissipation: fracture, plasticity, viscous dissipation [O] . Bonnetier Eric, Jakabcin Lukas, Labbé Stéphane, 2014

机译：一类模型的数值模拟，该模型结合了多种耗散机制：断裂，塑性，粘性耗散
8. Effect of Ductile and Viscous Dissipation on Fracture of Solids. Part I. Plastic Stress and Strain Fields near Crack Tip. Part II. Computer Simulation of Fracture Spreading in a Viscoelastic Solid. [R] . wnuk,michael p. 1971

机译：韧性和粘性耗散对固体断裂的影响。第一部分裂纹尖端附近的塑性应力和应变场。第二部分。粘弹性固体中裂纹扩展的计算机模拟。

Numerical simulation of a class of models that combine several mechanisms of dissipation: Fracture, plasticity, viscous dissipation

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