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Prediction of the Tension/Compression Asymmetry of ECAP Processed FCC Material Using an Integrated Model Based on Dislocation and Back- Stress

机译：基于位错和反应力的集成模型预测ECAP处理的FCC材料的拉伸/压缩不对称性

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In our recent work, a new integrated model was proposed to describe the back-stress evolution based on the dislocation substructure and texture. By relating the back-stress to the dislocation density in cell walls and in the cell interior, this model is able to capture the back-stress evolution of ECAP processed pure aluminium. In this paper, the model is used for another FCC material, namely copper. The aim is to check whether this model is able to predict the tension/compression asymmetry (due to the back-stress) of copper. The results show that this is indeed the case and it is also found that the strain rate ratio proposed in our previous work [1] is a function of the dislocation density ratio.

机译：在我们最近的工作中，提出了一个新的集成模型来描述基于位错子结构和纹理的背应力演化。通过将反应力与细胞壁和细胞内部的位错密度相关联，该模型能够捕获ECAP处理的纯铝的反应力演变。在本文中，该模型用于另一种FCC材料，即铜。目的是检查该模型是否能够预测铜的拉伸/压缩不对称（由于背应力）。结果表明确实如此，并且还发现我们先前的工作[1]中提出的应变率比是位错密度比的函数。

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来源
《Nanomaterials by severe plastic deformation》|2011年|p.961-966|共6页
会议地点 Nanjing(CN);Nanjing(CN)
作者
Enze Chen; Laurent Duchene; Anne Marie Habraken; Bert Verlinden;
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作者单位

Katholieke Universiteit Leuven, Department of Metallurgy and Materials Engineering,Kasteelpark Arenberg 44, B3001 Heverlee, Belgium;

FNRS Fonds de la Recherche Scientifique, University of Liege, ARGENCO, Chemin des Chevreuils 1, B-4000 Liege, Belgium;

FNRS Fonds de la Recherche Scientifique, University of Liege, ARGENCO, Chemin des Chevreuils 1, B-4000 Liege, Belgium;

Katholieke Universiteit Leuven, Department of Metallurgy and Materials Engineering,Kasteelpark Arenberg 44, B3001 Heverlee, Belgium;

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会议组织
原文格式 PDF
正文语种 eng
中图分类塑料;
关键词
tension/compression asymmetry; back-stress; ECAP;

机译：张力/压缩不对称；背压亚太经社会;

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专利

1. Prediction of the Tension/Compression Asymmetry of ECAP Processed FCC Material Using an Integrated Model Based on Dislocation and Back-Stress [J] . Enze Chen, Laurent Duchene, Anne Marie Habraken, Materials science forum . 2011,第PTa2期

机译：基于位错和反应力的集成模型预测ECAP处理的FCC材料的拉伸/压缩不对称性
2. Tension-compression asymmetry in homogeneous dislocation nucleation stress of single crystals Cu, Au, Ni and Ni_3Al [J] . Hongxian Xie, Tao Yu, Fuxing Yin Materials Science and Engineering . 2014,第maya16期

机译：Cu，Au，Ni和Ni_3Al单晶均匀位错成核应力的拉伸压缩不对称性
3. A new form of equivalent stress for combined axial-torsional loading considering the tension-compression asymmetry of polymeric materials [J] . Zhang Jianwei, Jiang Han, Kang Guozheng, RSC Advances . 2015,第89期

机译：考虑聚合物材料的张力压缩不对称的组合轴向扭转加载的一种新形式的等效应力
4. Material Modeling and Springback Analysis Considering Tension/Compression Asymmetry of Flow Stresses [C] . Nobuyasu Noma, Toshihiko Kuwabara Conference of the European Scientific Association on Material Forming . 2014

机译：考虑张力/压缩不对称的材料建模与回弹分析
5. Dislocation-based multi-scale modeling for size-dependent plasticity of heterogeneous materials. [D] . Lyu, Hao. 2016

机译：基于位错的多尺度建模，用于异质材料的尺寸依赖性可塑性。
6. Dislocation Based Flow Stress Model of 300M Steel in Isothermal Compression Process [O] . Rongchuang Chen, Peng Guo, Zhizhen Zheng, 2018

机译：等压压缩过程中基于位错的300M钢流应力模型
7. Experimental Characterization and Material Modelling of an AZ31 Magnesium Sheet Alloy at Elevated Temperatures under Consideration of the Tension-Compression Asymmetry [O] . Behrens B.-A., Bouguecha A., Bonk C., 2017

机译：考虑拉伸-压缩不对称性的高温AZ31镁合金板材的实验表征和材料建模

Prediction of the Tension/Compression Asymmetry of ECAP Processed FCC Material Using an Integrated Model Based on Dislocation and Back- Stress

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