A Study on Superplastic Behavior and Microstructural Evolution of an Isothermally Forged TiAl based Alloy

机译：一种等温锻造TiAl基合金的超塑性行为及微观结构演化研究

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Superplastic behavior and microstructure evolution of an isothermally forged Ti-47Al-1Cr-1V-1.5Mo-1.5Nb alloy were investigated. The results showed that the strain rate sensitivity index, m, increased with strain during the superplastic deformation, and it kept as a constant when the strain reached a certain value. The maximum value of m was 0.53 at 900°C and strain rate of 5×10{sup}(-4) s{sup}(-1). During the superplastic deformation, the as received material with lamellae and subgrains were refined due to dynamic recrystallization, and small and equiaxed grains with high angle boundaries were formed, creating a better condition for superplastic deformation. Grain boundary sliding and boundary migration were the main superplastic deformation mechanisms and slip and twining were also very important during the superplastic deformation of the alloy.

机译：研究了等温锻造Ti-47Al-1Cr-1V-1.5MO-1.5NB合金等温锻造的超塑性和微观结构演化。结果表明，在菌株达到一定值时，应变率敏感性指数M与应变增加，其保持恒定。 M的最大值为0.53，900°C和5×10 {sup}（ - 4）s {sup}（ - 1）的应变速率。在超塑性变形期间，由于动态再结晶，通过薄片和亚甲的接收材料改进，形成小和等式的晶粒，形成具有高角度边界的晶粒，为超塑性变形产生更好的条件。晶界滑动和边界迁移是主要的超塑性变形机制和滑动和缠绕在合金的超塑性变形过程中也非常重要。

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《International Conference on Superplasticity in Advanced Materials》|2007年||共4页
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作者
Hua Ding; Dan Song; Zhiqiang Pan; Caipei Zhang; Jianzhong Cui;
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中图分类合成树脂与塑料工业;
关键词
Isothermal forging; TiAl based alloy; Superplasticity;

机译：等温锻造;TiAl基合金;超塑性;

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1. Microstructural Effects on Moisture-Induced Embrittlement of Isothermally Forged TiAl-Based Intermetallic Alloys [J] . T. TSUYUMU, Y. KANENO, H. INOUE Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2003,第3期

机译：等温锻造TiAl基金属间合金的水分致脆性的微观结构影响
2. Superplastic behavior of hot- forged TiAl-Based alloy [J] . Deng Zhongyong, Huag Baiyun, He Yuehui Transactions of Nonferrous Metals Society of China . 1999,第2期

机译：TiAl基热锻合金的超塑性行为
3. Microstructural evolution and mechanical property of isothermally forged BT25y titanium alloy with different double-annealing processes [J] . Yang Xuemei, Zhao Zhanglong, Ning Yongquan, Materials Science and Engineering . 2019,第FEBa4期

机译：不同双退火工艺的等温锻造BT25y钛合金的组织演变和力学性能
4. A Study on Superplastic Behavior and Microstructural Evolution of an Isothermally Forged TiAl based Alloy [C] . Hua Ding, Dan Song, Zhiqiang Pan, International Conference on Superplasticity in Advanced Materials . 2007

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5. Flow behavior and microstructural evolution during superplastic deformation of AA8090 aluminum-lithium alloy. [D] . Fan, Wenjie. 1998

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6. Microstructural Evolution and Refinement Mechanism of a Beta–Gamma TiAl-Based Alloy during Multidirectional Isothermal Forging [O] . Kai Zhu, Shoujiang Qu, Aihan Feng, 2019

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7. A Study on Mechanical Behavior and Microstructural Evolution in the Superplastic Deformation of Ti75 Alloy [O] . Li Changliang, Ding Hua, A Zhao Yongqing Zhou Lian 2015

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A Study on Superplastic Behavior and Microstructural Evolution of an Isothermally Forged TiAl based Alloy

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