Effect of Particle size of monomodal 316L powder on powder layer density in powder bed fusion

被引：0

作者：

Lukas Haferkamp

Adriaan Spierings

Marco Rusch

Dominik Jermann

Marvin A. Spurek

Konrad Wegener

机构：

[1] Inspire,Swiss Federal Institute of Technology, Institute of Machine Tools and Manufacturing (IWF)

[2] Innovation Center for Additive Manufacturing Switzerland (icams),undefined

[3] ETH Zürich,undefined

来源：

Progress in Additive Manufacturing | 2021年 / 6卷

关键词：

LPBF; Powder layer density; Powder; Additive manufacturing; Laser powder bed fusion; Powder layer;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Powder layer density is an important measure for understanding the effect of powder on part quality in powder bed fusion. The density of thin layers, as they are deposited in powder bed fusion, differs from the density of powder in large containers. This study investigates this difference. Therefore, six monomodal powders with different particle size distributions, from coarse to fine, are spread in an 84.5 µm deep cavity to determine their powder layer densities for a single layer. A linear dependence of powder layer density on the D50 of powder is discovered for monomodal powders with good flowability. This dependence can be explained by the wall effect. Fine powders with low flowability show an increase in the standard deviation of the powder layer density. These findings suggest the existence of a particle size distribution that is sufficiently small to minimize the wall effect in a thin layer while still being sufficiently large to guarantee a good flowability of the powder.

引用

页码：367 / 374

页数：7

共 80 条

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