结果表明,衬底处的温度分布和质量流密度的计算值与实测值相吻合。
The calculated results about the temperature and the mass flow density on the substrate are consistent with experimented ones.
随着中间包坩埚中金属熔体液面的降低,熔体质量流率不断减小,从而使雾化锥喷雾密度函数发生改变。
The research results show that, when the melt in the tundish is decreasing, the mass flow rate of melt will decrease, and so the spray density function will change.
结果表明:沸腾换热系数随着热流密度和质量流率的增加而增加,随着狭缝尺寸的增加而减小。
It was shown that heat transfer coefficient increases with increasing heat flux, mass flux and decreasing gap of the annular channel.
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