An Homogenization-Based Nonlocal Damage Model for Brittle Materials and Applications

机译：基于均质化的脆性材料非局部损伤模型及其应用

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摘要

A micromechanics-based constitutive damage model with clear physical grounds and few parameters is presented, in which the Ponte-Castaneda and Willis estimate (PCW estimate) is adopted and applied to solid matrix weaken by penny-shaped microcracks. The basic idea is to integrate the homogenization procedure into the standard thermodynamics framework. An energy release rate-based damage criterion is proposed in which the interaction effects between different cracks families are involved. The proposed constitutive model is then extended to an orientation-based nonlocal version. Finally, this model has been implemented into a finite element code and the numerical results obtained for 2D problems show its predictive capacity and mesh independent characteristics.

机译：提出了一种基于物理力学原理且参数很少的基于微力学的本构损伤模型，采用了Ponte-Castaneda和Willis估计（PCW估计）并将其应用于由细小形微裂纹削弱的固体基质。基本思想是将均质过程集成到标准热力学框架中。提出了一种基于能量释放率的损伤准则，其中涉及不同裂纹家族之间的相互作用。然后，将提出的本构模型扩展到基于方向的非本地版本。最后，该模型已被实现为有限元代码，并且针对二维问题获得的数值结果显示了其预测能力和独立于网格的特征。

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来源
《Computational Science - ICCS 2007 pt.3; Lecture Notes in Computer Science; 4489》|2007年|1130-1137|共8页
会议地点 Beijing(CN)
作者
Zhu Qizhi; Djimedo Kondo; Shao Jian-fu;
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作者单位

Laboratory of Mechanics of Lille, URA CRNRS 8107, University of Lille, Cite Scientifique, 59655 Villeneuve d'Ascq, France;

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会议组织
原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
关键词
homogenization; damage; crack interaction; nonlocal;

机译：均质化损伤;裂纹相互作用非本地;

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1. Meso-scale physical modeling of energetic degradation function in the nonlocal macro-meso-scale consistent damage model for quasi-brittle materials [J] . Chen Jianbing, Ren Yudong, Lu Guangda Computer Methods in Applied Mechanics and Engineering . 2021,第Feba1期

机译：中脆材料非识别宏观型尺度一致损伤模型的高能量退化功能的中学规模物理建模
2. A new nonlocal macro-meso-scale consistent damage model for crack modeling of quasi-brittle materials [J] . Lu Guangda, Chen Jianbing Computer Methods in Applied Mechanics and Engineering . 2020,第Apra15期

机译：用于准脆性材料裂纹建模的非局部宏-中观尺度一致损伤模型
3. Nonlocal phase field approach for modeling damage in brittle materials [J] . Karthik S., Rajagopal A., Reddy J. N. Mechanics of materials . 2021,第Juna期

机译：脆性材料损伤的非局部相场现场方法
4. On the nonlocal computational modelling of damage in brittle and quasi-brittle materials [C] . Jiří Vala, Vladislav Kozák, Petra Jarošová International Conference on Circuits, Systems, Communications and Computers . 2020

机译：关于脆性和准脆性材料损伤的非局部计算建模
5. THE CONTINUOUS DAMAGE THEORY OF BRITTLE MATERIALS AND ITS APPLICATIONS IN PLANE PROBLEMS. [D] . FONSEKA, GARDIHEWA UPALI. 1981

机译：脆性材料的连续损伤理论及其在平面问题中的应用。
6. Insensitivity to Flaws Leads to Damage Tolerance in Brittle Architected Meta-Materials [O] . L. C. Montemayor, W. H. Wong, Y.-W. Zhang, -1

机译：对缺陷的不敏感性会导致脆性结构化元材料中的损伤容忍度
7. Nonlocal plasticity-based damage modeling in quasi-brittle materials using an isogeometric approach [O] . Angel Rawat, Raghu Piska, A. Rajagopal, 2021

机译：采用异诊测法的准脆性材料基于非局部可塑性的损伤
8. Formulation and computational aspects of plasticity and damage models with application to quasi-brittle materials [R] . Chen, Z. , Schreyer, H. L. 1995

机译：可塑性和损伤模型的配方和计算方面应用于准脆性材料

An Homogenization-Based Nonlocal Damage Model for Brittle Materials and Applications

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