FE Analysis of Microstructure Evolution during Ring Rolling Process of a Large-Scale Ti-6Al-4V Alloy Ring

机译：大型Ti-6AL-4V合金环的环轧工序微观结构演化的FE分析

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Microstructure evolution during ring rolling process of a large-scale Ti-6Al-4V ring was investigated with the combined approaches of three dimensional finite element method (FEM) simulation and microstructure prediction model. A microstructure prediction model was established by considering the volume fractions and grain size of α and β phases varying with process variables, and grain growth. In order to perform FE simulation for ring rolling process of Ti-6Al-4V alloy, a constitutive equation was generated by utilizing the flow stress data obtained from hot compression tests at different temperature and strain rate conditions. The volume fraction and grain size of α and β phases during ring rolling were calculated by de-coupled approach between FEM analysis and microstructure prediction model. The prediction results were compared with the experimental ones. Our proposed microstructure simulation module was useful for designing hot forming process of Ti-6Al-4V alloy.

机译：采用三维有限元法（FEM）模拟和微观结构预测模型的组合方法研究了大规模Ti-6AL-4V环的环轧制过程中的微观结构演变。通过考虑与过程变量不同的α和β相的体积分数和粒度和晶粒生长来建立微结构预测模型。为了对Ti-6A-4V合金的环轧制过程进行FE模拟，通过利用在不同温度和应变率条件下的热压缩试验中获得的流量应力数据产生本构体等式。通过FEM分析与微观结构预测模型之间的解耦方法计算环轧期间α和β相的体积分数和晶粒尺寸。将预测结果与实验结果进行比较。我们所提出的微观结构模拟模块可用于设计Ti-6Al-4V合金的热成型过程。

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《International Conference on Processing Manufacturing of Advanced Materials》|2009年||共6页
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作者
Jong-Taek Yeom; Jeoung Han Kim; Jae-Keun Hong; Nho-Kwang Park; Chong Soo Lee;
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中图分类 TB3-53;
关键词
Ti-6Al-4V Alloy; Microstructure Evolution; Microstructure Prediction; Finite Element Analysis; Ring Rolling Process;

机译：TI-6AL-4V合金;微观结构进化;微观结构预测;有限元分析;环轧制工艺;

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专利

1. Ring-rolling design for a large-scale ring product of Ti-6Al-4V alloy [J] . Jong Taek Yeom, Jeoung Han Kim, Nho Kwang Park, Journal of Materials Processing Technology . 2007,第0期

机译：Ti-6Al-4V合金大型环件的环轧设计
2. Microstructure evolution modeling of titanium alloy large ring in hot ring rolling [J] . Min Wang, He Yang, Chun Zhang, The International Journal of Advanced Manufacturing Technology . 2013,第9a12期

机译：热轧钛合金大环的组织演变建模。
3. Microstructure Evolution of Inconel 718 Alloy during Ring Rolling Process [J] . Zhu Xing-lin, Liu Dong, Xing Li-juan, International Journal of Precision Engineering and Manufacturing . 2016,第6期

机译：Inconel 718合金环轧过程中的组织演变
4. FE Analysis of Microstructure Evolution during Ring Rolling Process of a Large-Scale Ti-6Al-4V Alloy Ring [C] . Jong-Taek Yeom, Jeoung Han Kim, Jae-Keun Hong, International Conference on Processing Manufacturing of Advanced Materials . 2009

机译：大型Ti-6AL-4V合金环的环轧工序微观结构演化的FE分析
5. Investigation of heat loss and feasibility of reheating in large radial-axial ring rolling processes. [D] . Hu, Shichao. 2013

机译：研究大型径向-轴向环轧过程中的热损失和再加热的可行性。
6. Effect of the Ultrasonic Surface Rolling Process on the Fretting Fatigue Behavior of Ti-6Al-4V Alloy [O] . Chengsong Liu, Daoxin Liu, Xiaohua Zhang, 2017

机译：超声波表面轧制工艺对Ti-6Al-4V合金微动疲劳行为的影响
7. FE Simulation of Microstructure Evolution during Ring Rolling Process of INCONEL Alloy 783 [O] . J. Yeom, E. Jung, J. Hong, 2010

机译：Inconel合金环轧制过程中微观结构演化的FE模拟783
8. Effect of Preheat Temperature and Inter-Pass Reheating on Microstructure and Texture Evolution During Hot Rolling of Ti-6Al-4V (Preprint) [R] . Salem, A. A., Glavicic, M. G., Semiatin, S. L. 2008

机译：预热温度和通道间再加热对Ti-6al-4V（预印）热轧组织和织构演变的影响

FE Analysis of Microstructure Evolution during Ring Rolling Process of a Large-Scale Ti-6Al-4V Alloy Ring

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