SiC体积分数高达50%的高铝陶瓷粉混合行为研究

Marco Speth, Kim Rouven Riedmueller, Mathias Liewald
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摘要

铝基复合材料(AMC)确实结合了高轻量化潜力和广泛的特定机械或热性能,这分别取决于它们的材料成分或增强颗粒的含量。目前,制造这种AMC的三种主要生产技术是粉末冶金、半固态工艺和铸造。在这里,AMC的加固比例取决于所选择的制造策略,因此由于团聚和孔隙问题,通常限制在30 vol. %的最大值。在这种情况下,主要目标是了解粉末混合物的基本混合行为为AMC绿体生产具有高达50 vol.% SiCp增强含量。为此,制备了单峰AlSi7Mg0.6与不同SiCp组分的粉末混合物,在不同的混合时间和速度下,研究了这些混合参数对颗粒分布均匀性的影响。然后,研究了粉末粒度对混合过程的影响。结果表明,混合速度越慢,均质化速度越快,粒径越大,混合速度越快。在此基础上,建立了混合时间、速度和颗粒载荷的回归模型,以确定合适的混合参数。
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Study on mixing behaviour of aluminium-ceramic powder having high SiC volume fractions up to 50 vol.%

Aluminium matrix composites (AMC) do combine a high lightweight potential with a wide range of specific mechanical or thermal properties, depending on their material composition or the content of reinforcement particles, respectively. Currently, the three main production technologies for manufacturing such AMC are powder metallurgy, semi-solid processes and casting. Here, the AMC´s reinforcement proportion that can be processed depends on the chosen manufacturing strategy and is therefore often limited to a maximum value of 30 vol. %, due to agglomeration and porosity problems. In this context, the main objective is to understand the fundamental mixing behaviour of powder mixtures for AMC green body production having reinforcement contents of up to 50 vol.% SiCp. For this purpose, powder mixtures of monomodal AlSi7Mg0.6 and different SiCp fractions were prepared with different mixing times and speeds to investigate the influence of these mixing parameters on the homogeneity of the particle distribution. Afterwards, the influence of powder size on the mixing process was investigated. The results showed that a slower mixing speed resulted in faster homogenisation as well as a larger particle size can be faster mixed. Furthermore, a regression model was developed using mixing time, speed and particle loading, to determine sufficient mixing parameters.

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