通过熔体的孕育使合金晶粒细化

Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences Pub Date : 2003-03-15 DOI:10.1098/rsta.2002.1147

By A. L. Greer

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引用次数: 139

摘要

综述了铝熔体孕育的最新研究进展。金属玻璃中孕育剂颗粒的透射电子显微镜揭示了铝晶粒成核机理的细节。虽然这些研究确定了接种有效或无效的一些条件，但它们不允许预测颗粒大小。与成核有关的现象不同寻常的是，定量预测是可能的。对于强效接种，如在铝合金中实施的接种，晶粒的形成受接种剂粒径的限制，首先发生在最大的颗粒上。简单的热模型可以描述晶粒细化对合金含量和加工条件的依赖，并可以考虑孕育剂的设计。

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Grain refinement of alloys by inoculation of melts

Recent progress in understanding the inoculation of aluminium melts is reviewed. Transmission electron microscopy of inoculant particles in a metallic glass reveals details of the mechanism of nucleation of aluminium grains. While such studies define some of the conditions under which inoculation is effective or not, they do not permit a prediction of grain size. Unusually for a nucleation–related phenomenon, quantitative prediction is possible. For potent inoculation such as is practised in aluminium alloys, grain initiation is limited by inoculant particle size, occurring first on the largest particles. Simple thermal models can then describe the dependence of grain refinement on alloy content and processing conditions, and enable consideration of inoculant design.

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Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences

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