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Phase Transition in Directionally Solidified TiAl-based Alloys Containing Nb and Mo

机译：含Nb和Mo的定向凝固TiAl基合金的相变

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To improve the oxidation resisitance of TiAl-based alloys,beta stabilizer elements such as Nb.Mo were commonly added. However,degradation of the mechanical properties might occur by two factors:B2 phase remained at room temperature due to the β-phase solidification,and the micro-segregation brought by peritectic reaction. In the present work.microstructure formation in TiAlbased alloys containing Nb and Mo were investigated in directional solidification experiments at velocities ranging from 20μm/s500μm/s. High temperature quenching were used to determine the solidification path and the associated microsegregation. The effect of alloy composition and growth velocity on solidification path has been studied. It was found that both addition of Mo to Ti46A16Nb0. 2B alloys or increasing growth rates would shift the solidification path from peritectic solidification to theβ-phase solidification. At the growth rate of 500μm/s in Ti46A16Nb2Mo0. 2B alloys, a typical α-phase solidification mi-crostructure was observed.

机译：为了提高TiAl基合金的抗氧化性，通常添加β稳定剂元素，例如Nb.Mo。然而，力学性能的下降可能是由两个因素引起的：B2相由于β相的凝固而保留在室温下，以及包晶反应带来的微观偏析。在目前的工作中，通过定向凝固实验研究了含Nb和Mo的TiAl基合金的微观组织形成，速度范围为20μm/s500μm/ s。使用高温淬火来确定固化路径和相关的微偏析。研究了合金组成和生长速度对凝固路径的影响。已经发现，Mo都添加到Ti46A16Nb0中。 2B合金或增长速度的增加将使凝固路径从包晶凝固转变为β相凝固。 Ti46A16Nb2Mo0的生长速度为500μm/ s。在2B合金中，观察到典型的α相凝固微观组织。

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来源
《World conference on titanium》|2012年|1491-1493|共3页
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作者
Hong Zhong; Kun Bai; Jin Wang; Tiebang Zhang; Hongchao Kou; Shuangming Li; Jinshan Li;
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原文格式 PDF
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中图分类 TG146.23;
关键词
TiAl based alloys; beta stabilizer; solidification path; peritectic; phase transition;

机译：TiAl基合金;β稳定剂;凝固路径;包晶;相变;

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专利

1. Investigation of macro/microstructure evolution and mechanical properties of directionally solidified high-Nb TiAl-based alloy [J] . Ruirun Chen, Shulin Dong, Jingjie Guo, Materials & design . 2016,第JANa期

机译：定向凝固高Nb TiAl基合金的宏观/微观组织演变及力学性能研究
2. Effect of heat treatment on microstructure and mechanical properties of cast and directionally solidified high-Nb contained TiAl-based alloys [J] . Shulin Dong, Ruirun Chen, Jingjie Guo, Journal of Materials Research . 2015,第21期

机译：热处理对铸造和定向凝固的高Nb含TiAl基合金的组织和力学性能的影响
3. Study on the microstructure, phase transition and hardness for the TiAl-Nb alloy design during directional solidification [J] . Liu Guohuai, Wang Zhaodong, Fu Tianliang, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2015,第Null期

机译：TiAl-Nb合金定向凝固过程中的组织，相变和硬度研究
4. Phase Transition in Directionally Solidified TiAl-based Alloys Containing Nb and Mo [C] . Hong Zhong, Kun Bai, Jin Wang, World Conference on Titanium . 2012

机译：在定向固化的含有Nb和Mo的基基合金的相转变
5. Directional solidification of a binary alloy using the phase field model. [D] . Bi, Zhiqiang. 2002

机译：使用相场模型对二元合金进行定向凝固。
6. Segregation and Morphological Evolution of Si Phase during Electromagnetic Directional Solidification of Hypereutectic Al-Si Alloys [O] . Weiyan Jiang, Wenzhou Yu, Jie Li, 2019

机译：过共晶Al-Si合金电磁定向凝固过程中Si相的偏析和形貌演变
7. A Novel Directional Solidification of TiAl-Based Alloys by Electromagnetic Cold Crucible Zone Melting Technology with Y₂O₃ Moulds [O] . Hailong Zhang, Hongsheng Ding, Ruirun Chen, 2018

机译：用Y _{2 o _{3 模具的电磁冷坩埚区熔融技术新颖的Tial基金合金的道朝凝固}}
8. The Effect of Thermal Cycling to 1100 Degree C on the alpha (Mo) Phase in Directionally Solidified gamma/gamma Prime-alpha Alloys [R] . Harf, F. H. 1981

机译：热循环到1100℃对定向凝固γ/γprime-α合金中α（mo）相的影响

Phase Transition in Directionally Solidified TiAl-based Alloys Containing Nb and Mo

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