Porosity Development and Modification in Al-Si Alloys: Effect of P and Sr

Encyclopedia of Aluminum and Its Alloys Pub Date : 2018-11-16 DOI:10.1201/9781351045636-140000435

J. Campbell, M. Tiryakioğlu

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Abstract

The benefits of Sr additions to Al–Si alloys to modify the eutectic are often impaired by the development of porosity, sometimes to the degree that benefits are negated. Experimental reports are reviewed in this paper, suggesting an explanation in terms of the oxide population in the melt. The unmodified silicon particles are nucleated by AlP, which has in turn nucleated on oxide bifilms. The oxide bifilms, which are essentially cracks, are straightened by the crystalline growth of Si particles, leading to increased crack size and consequently reduced mechanical properties. The addition of Sr improves properties by suppressing the formation of Si on bifilms and thereby preventing the straightening of the pre-existing cracks. Si is now forced to precipitate at a lower temperature as a coral-like eutectic. Unfortunately, the bifilms are now freed (the primary Si particles no longer exist to grow around and sequester the bifilms), remaining in suspension in the liquid metal, allowing them to act to block interdendritic flow and aid the initiation of the formation of pores, countering the benefits of the improved structure.

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Al-Si合金孔隙发育与变质:P和Sr的影响

在Al-Si合金中添加Sr来改善共晶的好处经常被孔隙的发展所削弱，有时甚至被抵消。本文对实验报告进行了回顾，并从熔体中的氧化物种群的角度提出了一种解释。未修饰的硅颗粒被AlP成核，AlP又在氧化膜上成核。氧化膜(本质上是裂纹)被Si颗粒的结晶生长拉直，导致裂纹尺寸增大，从而降低了机械性能。添加Sr可以抑制薄膜上Si的形成，从而防止原有裂纹的矫直，从而改善性能。硅现在被迫在较低的温度下以珊瑚状共晶析出。不幸的是，双膜现在被释放了(原生硅颗粒不再存在，不再生长和隔离双膜)，悬浮在液态金属中，使它们能够阻止枝晶间流动，帮助孔隙的形成，抵消了改进结构的好处。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Encyclopedia of Aluminum and Its Alloys

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