Modeling the effect of surface energy on stressed grain growth in cubic polycrystalline bodies

Jamshidian M.; Thamburaja P.; Rabczuk T.

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Modeling the effect of surface energy on stressed grain growth in cubic polycrystalline bodies

机译：模拟表面能对立方多晶体内应力晶粒生长的影响

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A recently-developed constitutive theory of stressed grain growth is augmented to include the effect of excess surface energy via a surface effect state variable. The new constitutive theory is implemented into a coupled finite-element and phase-field computational framework. Through three-dimensional simulations, the new constitutive model is shown to be capable of predicting the experimental data of the annealing-induced texture transition in polycrystalline copper thin films of different thicknesses attached to a polyimide substrate. Our simulations show that the grain growth driving force arising from the through-film thickness grain boundary curvature plays a prominent role in such a transitional behavior. (C) 2015 Elsevier Ltd. All rights reserved.

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《Scripta materialia》 |2016年第null期|共5页
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Jamshidian M.; Thamburaja P.; Rabczuk T.;
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正文语种 eng
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关键词
Grain growth; Surface energy; Constitutive theory; Phase-field; Computer simulations;

机译：晶粒长大;表面能;本构理论;相场;计算机模拟;

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1. Modeling the effect of surface energy on stressed grain growth in cubic polycrystalline bodies [J] . Jamshidian M., Thamburaja P., Rabczuk T. Scripta materialia . 2016,第Null期

机译：模拟表面能对立方多晶体内应力晶粒生长的影响
2. A variational formulation and a double-grid method for meso-scale modeling of stressed grain growth in polycrystalline materials [J] . J.S. Chen, V. Kotta, H. Lu, Computer Methods in Applied Mechanics and Engineering . 2004,第12a14期

机译：用于多晶材料中应力晶粒生长的中尺度建模的变分公式和双网格方法
3. A multiscale Taylor model-based constitutive theory describing grain growth in polycrystalline cubic metals [J] . P. Thamburaja, M. Jamshidian Journal of the Mechanics and Physics of Solids . 2014,第feba期

机译：基于多尺度泰勒模型的本构理论，描述多晶立方金属中的晶粒生长
4. Stacking fault energy (s.f.e.) and grain size effects (d) on the tensile behaviour of f.c.c. polycrystalline alloys at 300 K: Back stress and effective stress evolutions [C] . H. Haddou, C. Gaudin, X. Feaugas, European mechanics of materials conference on processes, microstructures and mechanical properties . 2000

机译：堆叠故障能量（S.F.E.）和晶粒尺寸效应（D）对F.C.C的拉伸行为。多晶合金为300 k：背部应力和有效的应力演进
5. Phase field modeling of grain growth in porous polycrystalline solids. [D] . Ahmed, Karim E. 2015

机译：多孔多晶固体中晶粒生长的相场模拟。
6. A dataset of synthetic face centered cubic 3D polycrystalline microstructures grain-wise microstructural descriptors and grain averaged stress fields under uniaxial tensile deformation [O] . Ankita Mangal, Elizabeth A. Holm 2018

机译：合成面心立方3D多晶微结构单向拉伸变形下晶粒细微结构描述符和晶粒平均应力场的数据集
7. Modeling the Effect of Surface Energy on Stressed Grain Growth in Cubic Polycrystalline Bodies [O] . M. Jamshidian, P. Thamburaja, T. Rabczuk 2016

机译：模拟表面能对立方多晶体内应力晶粒生长的影响
8. Development and Evaluation of Point Defect Models for the Growth of Passive Films on Single Crystal, Polycrystalline, and Amorphous Metal Surfaces [R] . MacDonald, D. D., Urquidi, M., Wilde, B. W. 1985

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Modeling the effect of surface energy on stressed grain growth in cubic polycrystalline bodies

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