Complementary energy based FE modelling of coupled elasto-plastic and damage behavior for continuum microstructure computations

Damijan Markovic; Adnan Ibrahimbegovic

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Complementary energy based FE modelling of coupled elasto-plastic and damage behavior for continuum microstructure computations

机译：基于互补能量的弹塑性与损伤行为耦合有限元建模，用于连续的微观结构计算

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摘要

We introduce a coupled elasto-plastic and damage constitutive model with the stress field as the independent variable. The damage part is described in an analogous way to the classical plasticity models, which enables an efficient use of the complementary variational formulation. We work out the complete numerical implementation and show its efficiency with respect to the more classical displacement based formulation. We demonstrate the particular advantage of using the proposed approach within the framework of structured representation of a heterogeneous material.

机译：我们引入了一个以应力场为自变量的弹塑性与损伤本构关系的耦合模型。损坏部分的描述与经典可塑性模型类似，可有效利用补充变体配方。我们制定了完整的数值实现方案，并显示了其相对于更经典的基于位移的公式的效率。我们展示了在异质材料的结构化表示框架内使用建议的方法的特殊优势。

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来源
《Computer Methods in Applied Mechanics and Engineering》 |2006年第40期|p.5077-5093|共17页
作者
Damijan Markovic; Adnan Ibrahimbegovic;
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作者单位

Ecole Normale Superieure de Cachan, LMT-Cachan, 61 avenue du president Wilson, 94235 Cachan, France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类自动化基础理论;工程基础科学;
关键词
continuume microstructure computations; electro-plastic behavior; damage behavior;

机译：连续组织计算;塑性行为;损伤行为;

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2. A micromechanical inspired model for the coupled to damage elasto-plastic behavior of geomaterials under compression [J] . Marigo Jean-Jacques, Kazymyrenko Kyrylo Mechanics & Industry . 2019,第1期

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4. DETERMINATION OF FATIGUE CRACK INITIATION AND GROWTH OF A MULTI-NOTCHED SAMPLE BY MEANS OF A MICROSTRUCTURE AND ENERGY-BASED DAMAGE FE MODEL [C] . V. Herrera-Solaz, M. Niffenegger International Conference on Fracture . 2017

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5. The hypothesis of incremental complementary energy equivalence for damage modeling in continuum damage mechanics. [D] . Mou, Yanghu. 1995

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6. Polycarbonate as an Elasto-Plastic Material Model for Simulation of the Microstructure Hot Imprint Process [O] . Birutė Narijauskaitė, Arvydas Palevičius, Rimvydas Gaidys, 2013

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Complementary energy based FE modelling of coupled elasto-plastic and damage behavior for continuum microstructure computations

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