Experimental Study on the Impact of Macrosegregation Formation of the Al-Bi Hypermonotectic Alloys

Zhi Qiang Kang; Xue Yang; Guo Hui Feng; Lin Zhang

doi:10.4028/www.scientific.net/KEM.727.106

Paper Titles

Liquid-Liquid Phase Separation in Quenched Fe₇₁Cu₁₀P₁₀B₉ Multi-Component Alloy
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Effects of Sm and Zr Addition on the Microstructure and Mechanical Properties in Mg-Cu Alloys
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Computational Investigation of Interfacial Cracks Changes of TiAl Alloy
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Application of Magnetic Ionic Liquids
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Experimental Study on the Impact of Macrosegregation Formation of the Al-Bi Hypermonotectic Alloys
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Numerical Study on the Impact of Cooling Rate on the Solidification of Al-Bi Hypermonotectic Alloys
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Effect of Ti Content on Microwave Absorbing Properties of Nd-Fe Alloys
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Improved Mechanical Properties of AZ31 Alloy Fabricated by Multi-Directional Forging
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Preparation of a Light-Weight MgCaAlLiCu High-Entropy Alloy
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 727Experimental Study on the Impact of...

Experimental Study on the Impact of Macrosegregation Formation of the Al-Bi Hypermonotectic Alloys

Abstract:

The solidification experiments about macrosegregation formation of the Al-10%Bi hyper monotectic alloys under gravity conditions have been carried out. The results showed that the average diameter of the Bi-rich droplets linearly increases and the number density of the Bi-rich droplets exponentially decreases with solidification time under the gravity condition. Because of gravity settling and collisions coagulation between the droplets, area fraction of Bi-rich increased rapidly in the bottom of samples during early solidification. It’s easy to form Bi-rich layer at the bottom of the sample. The analysis demonstrates that nucleation and diffusion growth of drops are the dominant factors influencing the solidification microstructure during the early solidification and the same distribution of Bi-rich in different locations of sample. As the solidification process, gravity migration and collision coagulation beginning to play the leading role, lead to the difference in the distribution of Bi-rich droplets in different locations of sample 90%e5%a2%9e%e5%a4%a7&tjType=sentence&style=&t=increases+gradually" increases gradually in the same time. It caused macrosegregation of the final solidification microstructure under the gravity condition.

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Key Engineering Materials (Volume 727)

Pages:

106-110

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.727.106

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Online since:

January 2017

Authors:

Zhi Qiang Kang, Xue Yang, Guo Hui Feng, Lin Zhang

Keywords:

Al-Bi Hypermonotectic, Gravity, Microsegregation, Solidification

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