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Microstructure Evolution in Rapidly Solidified Immiscible Alloys

机译：快速凝固的不混溶合金中的微观结构演变

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We prepared Al-Bi alloys with our new aerogel counter gravity casting facility and Al-Pb alloys by simple mould casting with variable cooling rates. By counter gravity casting, it is possible to have directional solidification with flat isotherms and without forced melt flow during the casting process. Both methods allow studying the nucleation rate in liquid-liquid decomposition. The most important result is that a separation between monotectic and hypermonotectic particles is possible by using suitable cooling rates. The difference of the frequency maxima is a function, depending on cooling rate and starting composition. By casting experiments with variable cooling rates, we found that the average particle diameter is a function of the cooling rate, according to the theory of Ratke and Zhao, but the nucleation rate is higher than assumed in their theory.

机译：通过简单的模具铸件，我们使用新的气凝胶反重重力铸造设施和Al-Pb合金制备了Al-Bi合金。通过反重铸造，可以在铸造过程中具有平坦等温线的定向凝固，并且在铸造过程中没有强制熔体流动。两种方法允许研究液体液体分解中的成核速率。最重要的结果是通过使用合适的冷却速率，可以进行单调和高通晶颗粒之间的分离。频率最大值的差异是函数，具体取决于冷却速率和起始组合物。通过具有可变冷却速率的实验，我们发现平均粒径是冷却速率的函数，根据Ratke和Zhao的理论，但成核率高于其理论中的假设。

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《International Conference on Solidification and Gravity 》|2006年||共8页
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中图分类工程材料一般性问题 ;
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solidification of monotectic alloys; systems Al-Pb and AI-Bi; counter gravity casting; casting with variable cooling rates;

机译：单透明合金的凝固;系统AL-PB和AI-BI;反重铸造;带有可变冷却速率的铸造;

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1. 不同热流模式下快速凝固Cu-Co不混溶合金枝晶-分相结构的转变 [J] . 李圣, 刘峰, 杨伟中国有色金属学报（英文版） . 2017 ,第001期
2. 不同热流模式下快速凝固Cu-Co不混溶合金枝晶-分相结构的转变 [J] . 李圣, 刘峰, 杨伟中国有色金属学报：英文版 . 2017 ,第001期
3. 不同热流模式下快速凝固Cu-Co不混溶合金枝晶-分相结构的转变（英文） [J] . 李圣, 刘峰, 杨伟中国有色金属学报：英文版 . 2017 ,第001期
4. Effect of Brownian coagulation on the microstructure evolution in rapidly solidified immiscible alloys [J] . J. Z. Zhao, L. L. Gao, J. He Applied Physics Letters . 2005 ,第13期

机译：布朗凝固对快速凝固不混溶合金组织演变的影响
5. Microstructure Formation and Nanoindentation Behavior of Rapidly Solidified Cu-Fe-Zr Immiscible Alloys [J] . Xiaojun Sun, Jie He, Jiuzhou Zhao Materials science forum . 2020 ,第PTa1期

机译：快速凝固Cu-Fe-Zr混溶合金的组织形成和纳米狭窄行为
6. Microstructure of rapidly solidified Co-Cu-Si-B immiscible alloys with an amorphous phase [J] . Nagase Takeshi, Umakoshi Yukichi Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2015 ,第Null期

机译：快速凝固的具有非晶相的Co-Cu-Si-B不溶混合金的微观结构
7. Microstructure Evolution in Rapidly Solidified Immiscible Alloys [C] . International Conference on Solidification and Gravity . 2006

机译：快速凝固的不混溶合金中的微观结构演变
8. The Effect of Rapid Solidification and Heat Treatment on Microstructure and Electrochemical Properties of Advanced Biomaterial Co-Cr-Mo-C Alloy [D] . Erfanian Nazif Toosi, Hamid Reza . 2019

机译：快速凝固和热处理对先进生物材料CO-CR-MO-C合金微观结构和电化学性能的影响
9. In Situ and Ex Situ Characterization of the Microstructure Formation in Ni-Cr-Si Alloys during Rapid Solidification—Toward Alloy Design for Laser Additive Manufacturing [O] . Xiaoshuang Li, Kai Zweiacker, Daniel Grolimund, 2020

机译：原位和EX原位表征Ni-Cr-Si合金中的微观结构在激光添加剂制造中的快速凝固 - 升温过程中
10. Microstructure Evolution and Biodegradation Behavior of Laser Rapid Solidified Mg–Al–Zn Alloy [O] . Chongxian He, Shizhen Bin, Ping Wu, 2017

机译：激光快速凝固mg - al - Zn合金的组织演变及生物降解行为
11. Microstructures and Mechanical Responses of Powder Metallurgy Noncombustive Magnesium Extruded Alloy by Rapid Solidification Process in Mass Production. [R] . Kondoh, K., Hamada, E. A., Imai, H., 2010

机译：粉末冶金非膨胀型镁挤压合金快速凝固过程的组织与力学响应。

Microstructure Evolution in Rapidly Solidified Immiscible Alloys

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