Modeling and Simulation of Crystal Plasticity Based on GN Crystal Defects for Ultrafine-Grained Metals Induced by Severe Plastic Deformation

机译：严重塑性变形引起的超细晶粒金属基于GN晶体缺陷的晶体塑性建模与仿真

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In this study, we apply the densities of geometrically necessary (GN) crystal defects, i.e., GN dislocation and GN incompatibility considering dynamic recovery to the hardening law of a crystal in order to express almost crystal defects as geometrical quantities. Moreover, the quantitative confirmation process of the generations of subdivisions is proposed, and the information of induced grain is introduced into the strain rate sensitivity. A dislocation-crystal plasticity FE simulation is carried out for large deformation of an FCC polycrystal under plane strain condition. Distributions of crystal defects and crystal orientation in a specimen are visualized and the separation of grains is discussed on the basis of the results obtained here.

机译：在这项研究中，我们将考虑动态恢复的几何必要（GN）晶体缺陷密度（即GN位错和GN不相容性）应用于晶体的硬化规律，以便将几乎晶体缺陷表示为几何量。此外，提出了细分的世代的定量确认过程，并将诱发晶粒的信息引入应变率敏感性。对于平面应变条件下FCC多晶的大变形，进行了位错晶体塑性有限元模拟。可视化样品中晶体缺陷的分布和晶体取向，并根据此处获得的结果讨论晶粒的分离。

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来源
《International Conference on Nanomaterials by Severe Plastic Deformation(NanoSPD3); 20050922-26; Fukuoka(JP)》|2005年|P.215-220|共6页
会议地点 Fukuoka(JP)
作者
Shingo Oishi; Yoshiteru Aoyagi; Kazuyuki Shizawa;
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作者单位

Graduate School of Science and Technology, Keio University, 3-14-1 Hiyoshi Kohoku-ku, Yokohama 223-8522, Japan;

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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
multiscale modeling; crystal plasticity; dynamic recovery; geometrically necessary dislocation density; incompatibility; grain boundary; subdivision;

机译：多尺度建模;晶体可塑性;动态回复;几何上必要的位错密度;不相容性;晶界;细分;

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1. Modeling of Microstructure Effects on the Mechanical Behavior of Ultrafine-Grained Nickels Processed by Severe Plastic Deformation by Crystal Plasticity Finite Element Model [J] . The-Duong Nguyen, Van-Tung Phan, Quang-Hien Bui Journal of engineering materials and technology . 2015,第2期

机译：晶体塑性有限元模型模拟微结构镍对严重塑性变形后超细晶镍力学行为的影响
2. A three-scale crystal plasticity model accounting for grain refinement in fcc metals subjected to severe plastic deformations [J] . Karol Frydrych, Katarzyna Kowalczyk-Gajewska Materials Science and Engineering . 2016,第Mara21期

机译：一种三级晶体可塑性模型，用于解释fcc金属在严重塑性变形下的晶粒细化
3. Modeling of slip, twinning and transformation induced plastic deformation for TWIP steel based on crystal plasticity [J] . Sun C. Y., Guo N., Fu M. W., International Journal of Plasticity . 2016,第Null期

机译：基于晶体塑性的TWIP钢滑移，孪生和相变诱发塑性变形建模
4. Modeling and Simulation of Crystal Plasticity Based on GN Crystal Defects for Ultrafine-Grained Metals Induced by Severe Plastic Deformation [C] . Shingo Oishi, Yoshiteru Aoyagi, Kazuyuki Shizawa International Conference on Nanomaterials by Severe Plastic Deformation(NanoSPD3) . 2006

机译：基于GN晶体缺陷的晶体塑性晶体缺陷的建模与仿真，用于严重塑性变形诱导的超细粒化金属
5. Advancing Atomistic Modeling of Defects in Plastic Deformation of Metallic Crystalline Materials [D] . Yang, Chaoming. 2020

机译：推进金属晶体材料塑性变形缺陷原子模型
6. Fracture and fracture toughness of nanopolycrystalline metals produced by severe plastic deformation [O] . A. Hohenwarter, R. Pippan -1

机译：严重塑性变形产生的纳米多晶金属的断裂韧性和断裂韧性
7. A Dislocation-Crystal Plasticity Simulation on Large Deformation Considering Geometrically Necessary Dislocation Density and Incompatibility (1st Report, Definitions of GN Crystal Defects and Multiscale Modeling) [O] . Yoshiteru AOYAGI, Kazuyuki SHIZAWA 2006

机译：考虑几何必要位错密度和不相容性的大变形上的脱位晶体塑性模拟（第1报告，GN晶体缺陷和多尺度造型的定义）
8. Modelling Plasticity of Ni3Al-Based L12 Intermetallic Single Crystals. II. Two-Step (T1) and T2) Deformation Behaviour (Postprint) [R] . Choi, Y. S. , Dimiduk, D. M. , Uchic, M. D. , 2007

机译：Ni3al基L12金属间化合物单晶的塑性模拟。 II。两步（T1）和T2）变形行为（后印刷）

Modeling and Simulation of Crystal Plasticity Based on GN Crystal Defects for Ultrafine-Grained Metals Induced by Severe Plastic Deformation

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