입도 분포 및 입자 간 상호력이 스테인리스강 316L 분말의 충진율에 미치는 영향 연구 (Influence of Size Distribution and Particle Interaction on the Packing Behavior of 316L Stainless Steel Powder)

The influence of the size distribution and particle interaction on packing behaviors is investigated for water/gas-atomized STS 316L powders with polydisperse and bimodal size distributions. In most cases, the experimentally estimated packing fraction matched well with the results predicted by the Desmond model, which implies that the packing fraction increases with the polydispersity and skewness. When the powder size decreases below ~10 μm, however, the calculation starts to positively deviate from the experimental data, presumably because particle interaction plays a significant role in the powder packing behavior. The Desmond model is modified to consider the effects of particle interaction as well as of size distribution on the packing behavior, and the modified model shows better accordance with the experimental data, particularly for fine powders, than does the original Desmond model.

The influence of the size distribution and particle interaction on packing behaviors is investigated for water/gas-atomized STS 316L powders with polydisperse and bimodal size distributions. In most cases, the experimentally estimated packing fraction matched well with the results predicted by the Desmond model, which implies that the packing fraction increases with the polydispersity and skewness. When the powder size decreases below ~10 μm, however, the calculation starts to positively deviate from the experimental data, presumably because particle interaction plays a significant role in the powder packing behavior. The Desmond model is modified to consider the effects of particle interaction as well as of size distribution on the packing behavior, and the modified model shows better accordance with the experimental data, particularly for fine powders, than does the original Desmond model.