A dislocation density based material model to simulate the anisotropic creep behavior of single-phase and two-phase single crystals

Preussner J; Rudnik Y; Brehm H; Voelkl R; Glatzel U

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A dislocation density based material model to simulate the anisotropic creep behavior of single-phase and two-phase single crystals

机译：基于位错密度的材料模型，用于模拟单相和两相单晶的各向异性蠕变行为

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The primary and secondary creep behavior of single crystals is observed by a material model using evolution equations for dislocation densities on individual slip systems. An interaction matrix defines the mutual influence of dislocation densities on different glide systems. Face-centered cubic (fcc), body-centered cubic (bcc) and hexagonal closed packed (hcp) lattice structures have been investigated. The material model is implemented in a finite element method to analyze the orientation dependent creep behavior of two-phase single crystals. Three finite element models are introduced to simulate creep of a gamma' strengthened nickel base superalloy in < 100 >, < 110 > and < 111 > directions. This approach allows to examine the influence of crystal slip and cuboidal microstructure on the deformation process.

机译：通过材料模型使用演化方程式对单个滑移系统上的位错密度观察到了单晶的初级和次级蠕变行为。相互作用矩阵定义了位错密度对不同滑行系统的相互影响。研究了面心立方（fcc），体心立方（bcc）和六边形密堆积（hcp）晶格结构。用有限元方法实现材料模型，以分析两相单晶的取向相关蠕变行为。引入了三个有限元模型来模拟γ'强化镍基高温合金在<100>，<110>和<111>方向上的蠕变。这种方法可以检查晶体滑移和长方体微观结构对变形过程的影响。

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《International Journal of Plasticity》 |2009年第5期|共22页
作者
Preussner J; Rudnik Y; Brehm H; Voelkl R; Glatzel U;
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正文语种 eng
中图分类塑性力学;
关键词
Dislocations; Creep; Constitutive equations; Finite elements; Anisotropic material;

机译：位错蠕变本构方程有限元各向异性材料;

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2. 采用元胞自动机结合Laasraoui-Jonas位错密度模型模拟AZ31镁合金的动态再结晶行为 [J] . 刘筱, 李落星, 何凤亿, 中国有色金属学报：英文版 . 2013,第009期
3. A dislocation density based material model to simulate the anisotropic creep behavior of single-phase and two-phase single crystals [J] . Preussner J, Rudnik Y, Brehm H, International Journal of Plasticity . 2009,第5期

机译：基于位错密度的材料模型，用于模拟单相和两相单晶的各向异性蠕变行为
4. 3D discrete dislocation dynamics study of creep behavior in Ni-base single crystal superalloys by a combined dislocation climb and vacancy diffusion model [J] . Siwen Gao, Marc Fivel, Anxin Ma, Journal of the Mechanics and Physics of Solids . 2017,第MAY期

机译：基于位错爬升和空位扩散模型的镍基单晶高温合金蠕变行为的3D离散位错动力学研究
5. Constitutive modeling for strain rate-dependent behaviors of nanocrystalline materials based on dislocation density evolution and strain gradient [J] . Youyi Wu, Jianqiu Zhou, Shuhong Dong, Journal of Materials Research . 2014,第24期

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6. Modeling the anisotropic primary and secondary creep behavior of single crystals and comparison with experimentally observed behavior of various alloys [C] . H.Brehm, U.Glatzel TMS annual meeting . 1999

机译：模拟单晶的各向异性一次和二次蠕变行为，并与各种合金的实验观察到的行为进行比较
7. Toward a more complete mechanistic understanding of the mechanical behavior of anisotropic single-phase polycrystalline materials. [D] . Wollmershauser, James Andrew. 2011

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机译：低温高应力状态下单晶Ni基高温合金各向异性蠕变行为的本构模型（后印刷）。

A dislocation density based material model to simulate the anisotropic creep behavior of single-phase and two-phase single crystals

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