A new approach to the design of a low Si-added Al–Si casting alloy for optimising thermal conductivity and fluidity

Y. H. Cho; H. W. Kim; J. M. Lee; M. S. Kim

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A new approach to the design of a low Si-added Al–Si casting alloy for optimising thermal conductivity and fluidity

机译：一种设计低硅添加量的Al-Si铸造合金的新方法，可优化导热性和流动性

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The effect of Ni on the thermal conductivity and fluidity of a low Si-added Al–Si casting alloy was investigated. The room temperature thermal conductivity of an Al–2 wt%Si alloy instantly dropped when adding 0.5 wt%Ni, whereas further additions of Ni up to 3 wt% had little influence on the thermal conductivity, which was in the range of 180–185 W/mK. The thermal conductivity was also estimated for the alloys cast at various cooling rates by measuring the electrical conductivity using the Wiedemann–Franz law and increased nearly linearly with an increase in the cooling rates. At such a low level of 2 wt%Si, the castability of the Al–Si alloys, which was evaluated by a fluidity spiral test, was enhanced by the Ni additions, exhibiting the maximum fluidity length at 0.5 wt%Ni.

机译：研究了镍对添加低硅的Al-Si铸造合金的导热性和流动性的影响。当添加0.5wt％Ni时，Al-2wt％Si合金的室温热导率立即下降，而进一步添加最多3wt％的Ni对热导率的影响很小，其范围为180-185 W / mK。还可以通过使用Wiedemann-Franz定律测量电导率来估算在各种冷却速率下铸造的合金的热导率，并且随着冷却率的增加几乎呈线性增加。在如此低的2wt％Si水平下，通过添加流动性螺旋试验评估的Al-Si合金的可铸性通过添加Ni得以增强，在0.5wt％Ni处表现出最大的流动性长度。

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《Journal of Materials Science》 |2015年第22期|7271-7281|共11页
作者
Y. H. Cho; H. W. Kim; J. M. Lee; M. S. Kim;
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Division of Commercialisation Research Korea Institute of Materials Science">(1);

Division of Metallic Materials Korea Institute of Materials Science">(2);

Division of Commercialisation Research Korea Institute of Materials Science">(1);

Division of Metallic Materials Korea Institute of Materials Science">(2);

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A new approach to the design of a low Si-added Al–Si casting alloy for optimising thermal conductivity and fluidity

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