Effect of bimodal powder blends on part density and melt pool fluctuation in laser powder bed fusion

Abstract: The final part density in laser powder bed fusion is influenced by the powder particle size distribution. Too fine powders are not spreadable, and too coarse powders cause porosity. Powder blends, especially bimodal ones, can exhibit higher packing densities and changes in flowability compared to their monomodal constituents. These properties can influence final part density. Therefore, the influence of bimodal powder on final part density was investigated. Two gas atomized 316L (1.4404) powders with a D50 of … Show more

“…The surface profile of the spread layer can also be correlated with the powder bed density, whereby a tightly packed bed produces a surface with fewer discontinuities, which could explain the results presented for powder bed average height deviations as functions of the layer thickness for spreading speeds of 100, 200, and 300 mm/s in Figure 15 [36,[58][59][60]. [25,36,55].…”

A Novel Apparatus for the Simulation of Powder Spreading Procedures in Powder-Bed-Based Additive Manufacturing Processes: Design, Calibration, and Case Study

“…The surface profile of the spread layer can also be correlated with the powder bed density, whereby a tightly packed bed produces a surface with fewer discontinuities, which could explain the results presented for powder bed average height deviations as functions of the layer thickness for spreading speeds of 100, 200, and 300 mm/s in Figure 15 [36,[58][59][60]. [25,36,55].…”

A Novel Apparatus for the Simulation of Powder Spreading Procedures in Powder-Bed-Based Additive Manufacturing Processes: Design, Calibration, and Case Study

Influence of particle size distribution on surface roughness in powder bed fusion - A contribution to increase resource efficiency

Multi-scale defects in powder-based additively manufactured metals and alloys