Comparison of in-process laser drying with furnace and vacuum drying to reduce moisture of AlSi10Mg powder processed in Laser Powder Bed Fusion

Procedia CIRP Pub Date : 2024-01-01 DOI:10.1016/j.procir.2024.08.086

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Abstract

In most powder bed-based laser melting systems (PBF-LB), metal powders must be handled without inertization but in an air atmosphere for a short time, increasing the AlSi10Mg powder moisture and reducing the achievable component density. Consequently, different drying methods were investigated. Drying in a furnace with an inert atmosphere, using a vacuum to evaporate the water at low temperatures, and vaporizing moisture layerwise from the spreaded powder with a defocused, low-power laser beam as a further process step of the PBF-LB process. Therefore, four different moisturized powders, which were dried with different settings for the drying methods, are analyzed. All drying methods reduce the moisture content of the powder, with in-process drying being the most effective. Due to the oxide layer growth around the particles during furnace and vacuum drying, the achievable sample density after drying is worse. In-process drying with low energy density is the best option to reach a reduction of hydrogen pores and an increase of density.

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比较过程中激光干燥与熔炉干燥和真空干燥，以降低激光粉末床熔融技术中加工的硅镁铝粉的湿度

在大多数粉末床基激光熔化系统（PBF-LB）中，金属粉末必须在没有惰化的情况下在空气环境中短时间处理，这样会增加 AlSi10Mg 粉末的水分，降低可达到的成分密度。因此，对不同的干燥方法进行了研究。在带有惰性气氛的熔炉中进行干燥，使用真空在低温下蒸发水分，以及作为 PBF-LB 工艺的进一步工艺步骤，使用散焦的低功率激光束从铺展的粉末中逐层蒸发水分。因此，我们对四种不同的保湿粉末进行了分析，这些粉末采用不同的干燥方法进行干燥。所有干燥方法都能降低粉末的含水量，其中以工序内干燥最为有效。由于在炉内和真空干燥过程中颗粒周围的氧化层生长，干燥后可达到的样品密度较低。低能量密度的过程中干燥是减少氢孔和增加密度的最佳选择。

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