Evaluation of Creep Deformation and Mechanical Properties of Nickel-based Superalloys through FE Analysis Based on Crystal Plasticity Models

机译：基于晶体塑性模型的Fe分析评价镍基超合金的蠕变变形和力学性能

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The shape and the size of the γ' phase s are the controlling factors for the mechanical and creep properties of nickel-based super-alloys. In order to take into account of the effect of these underlying microstructures on the deformation behavior of these alloys, a multi-scale approach is essential. In this work, a homogenized dislocation density based crystal plasticity model has been developed from a detailed model containing γ-γ' phase s exclusively at the lower length scale. The mechanisms like anti-phase boundary shearing and micro-twinning etc. have been incorporated. The model has been used to simulate the creep deformation behavior of single crystal experiments. The results of simulation were compared to those of experiment and were found to be satisfactory.

机译：γ'阶段S的形状和尺寸是基于镍的超合金机械和蠕变性能的控制因子。为了考虑到这些底层微观结构对这些合金的变形行为的影响，多种方法是必不可少的。在这项工作中，从含有γ-γ'阶段S的详细模型开发了均匀化的位错密度基于晶体塑性模型，其仅以较低的长度刻度。抗相边界剪切和微孪晶等机制已被掺入。该模型已被用于模拟单晶实验的蠕变变形行为。将模拟结果与实验结果进行比较，发现令人满意。

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《International Conference on Creep, Fatigue and Creep-Fatigue Interaction》|2013年||共6页
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M.K. Samal; S. Ghosh;
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中图分类工程材料学;
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Nickel-based super-alloy; crystal plasticity; finite element simulation; creep deformation; homogenization;

机译：基于镍的超合金;晶体塑性;有限元模拟;蠕变变形;均质化;

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1. A crystal plasticity-based approach for creep-fatigue life prediction and damage evaluation in a nickel-based superalloy [J] . Kai-Shang Li, Run-Zi Wang, Guang-Jian Yuan, International Journal of Fatigue . 2021,第Feba期

机译：基于镍高超合金中蠕变 - 疲劳寿命预测和损伤评价的基于晶体塑性的方法
2. Development of a model for simulation of micro-twin and corresponding asymmetry in high temperature deformation behavior of nickel-based superalloy single crystals using crystal plasticity-based framework [J] . Samal M. K. Proceedings of the Institution of Mechanical Engineers, Part C. Journal of mechanical engineering science . 2017,第14期

机译：基于晶体塑性基于晶体塑性框架模拟微双对高温合金单晶的微双胞胎和相应不对称性模型的研制
3. Crystal plasticity finite-element modelling of cyclic deformation and crack initiation in a nickel-based single-crystal superalloy under low-cycle fatigue [J] . Lu Zhang, Liguo Zhao, Rong Jiang, Fatigue & fracture of engineering materials and structures . 2020,第8期

机译：低循环疲劳下镍基单晶超合金循环变形及裂纹启动的晶体塑性有限元建模
4. Evaluation of Creep Deformation and Mechanical Properties of Nickel-based Superalloys through FE Analysis Based on Crystal Plasticity Models [C] . M.K. Samal, S. Ghosh International Conference on Creep, Fatigue and Creep-Fatigue Interaction . 2013

机译：基于晶体塑性模型的Fe分析评价镍基超合金的蠕变变形和力学性能
5. Mechanical properties of white layers formed by different machining processes on nickel-based superalloy. [D] . Proust, Edouard. 2008

机译：在镍基高温合金上通过不同的加工工艺形成的白色层的机械性能。
6. The Effect of Withdrawal Rate on Crystal Structure Perfection Microstructure and Creep Resistance of Single Crystal Castings Made of CMSX-4 Nickel-Based Superalloy [O] . Kamil Gancarczyk, Maciej Zubko, Aneta Hanc-Kuczkowska, 2019

机译：撤离速率对CMSX-4镍基高温合金单晶铸件的晶体结构完善显微组织和抗蠕变性的影响
7. Evaluation of Creep Deformation and Mechanical Properties of Nickel-based Superalloys through FE Analysis Based on Crystal Plasticity Models [O] . Samal M.K., Ghosh S. 2013

机译：基于晶体可塑性模型的有限元分析评估镍基高温合金的蠕变变形和力学性能

Evaluation of Creep Deformation and Mechanical Properties of Nickel-based Superalloys through FE Analysis Based on Crystal Plasticity Models

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