转盘雾化制备铝合金粉末过程中的液体铺展和粒径分布研究

Study of liquid spreading and particle size distribution during the preparation of aluminum alloy powder by rotary disc atomization

  • 摘要: 为研究高球形度、高粒径集中度、无卫星粉的增材制造用铝合金粉末制备技术,开发了一套高温转盘雾化实验装置。基于该装置,研究了铝液的流动铺展规律,发现、命名并分析了转盘表面存在的4个典型区域。采用扫描电子显微镜(SEM)分析了1060纯铝和AlSi10Mg铝合金粉末样品的微观结构。采用单峰Extreme模型,对典型实验的粉末粒径分布曲线进行了拟合分析。研究结果表明:铝液流量减小引起了分裂模式转变,进而提高了细粉率、降低了中位径。研究对比了平面、锥面和弧面等3种盘面构型对中位径的影响。分析了转盘直径和转速对1060纯铝粉中位径的影响规律,通过线性回归拟合得到了一个新的中位径理论公式。

     

    Abstract: An experimental setup using high temperature rotating disc centrifugal atomization was developed to study the preparation technology of the aluminum alloy powder for additive manufacturing with high sphericity, high particle size concentration and no satellite powder. The flow spreading pattern of the aluminum liquid was investigated, and four typical regions were found to exist on the surface of the disc, which were named and analyzed. The microstructures of the 1060 and AlSi10Mg powder samples were analyzed by scanning electron microscopy (SEM). The powder particle size distribution curves for typical experiments were analyzed by fitting a single-peak Extreme model. A shift in the splitting mode caused by a decrease in the flow rate of the aluminum liquid was investigated, which was effective in increasing the fines rate and reducing the median diameter. The effects of three different disk configurations, plane, tapered and curved, on the median diameter were compared. The effect law of the rotational speed and disc diameter on the median diameter of 1060 aluminum powder was analyzed, and a new theoretical formula of the particle size was obtained by regression analysis.

     

/

返回文章
返回