Simulation of powder spreading of functionally graded materials in powder bed fusion additive manufacturing
L Wang and ER Li and ZY Zhou and BC Zhang and AB Yu, ACTA MECHANICA SINICA, 39, 722255 (2023).
DOI: 10.1007/s10409-022-22255-x
Powder bed fusion additive manufacturing has been applied to the fabrication of functionally graded materials. A new design that allows the material composition to change along the direction perpendicular to the powder spreading has been reported in the literature. Based on this design, this work examines the quality of the graded spread powder layer with two powders, which have a large difference of density. The results reveal that during the spreading of graded powders, the volume of particles on the heavy powder side is deposited less than that on the light powder side, indicating that heavy particles diffuse to the light powder side. This diffusion is affected by the spreading speed, but not much by the layer gap. Large spreading speed causes more significant deviation. The results also show that particle size affects diffusion, indicating that decreasing the particle size of the heavy powder may be a solution to reduce diffusion.
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