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Abstract
We modified the traditional Navier-Stokes equation, and used the Fluent software to simulate the microscopic law of flow of Zn-Al alloy melt in the micro-channel. The simulation results show that when the diameter of the channel is 0.5mm， the liquid metal in the micro-channel is in a critical state. Relative thickness of boundary-velocity layer increases with the decrease of diameter of the channel, and micro-channel flow shows obvious convex-front effect, which has not been observed in the macroflow. The convex-front effect weakens when the inlet pressure increases. Between the flow front and upstream region, there exist negative pressure gradient zones, which become more outstanding in finer channels.

Keywords:
micro-channel/

microflow/

Zn-Al alloy
Authors and contacts
Ren Ming-Xing¹,

Li Bang-Sheng¹,

Yang Chuang¹,

Fu Heng-Zhi²
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Vol. 57, Issue 8 - 2008-04-20

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