Effects of Mixing Speed and Mixing Time on Powder Segregation During Powder Mixing for Binder Jetting Additive Manufacturing: An Experimental Study

Effects of Mixing Speed and Mixing Time on Powder Segregation During Powder Mixing for Binder Jetting Additive Manufacturing: An Experimental Study

Blog Article

The binder jetting additive manufacturing process offers the ability to create three-dimensional parts layer by layer.However, using any powder that contains particles with different sizes, shapes, or densities can lead to powder segregation during the mixing, dispensing, and spreading steps of the binder jetting additive manufacturing process.Powder segregation can often lead to uneven powder distribution across the powder bed, potentially causing defects in final parts.Therefore, it is important to understand powder segregation in mixing, dispensing, and spreading.

Reported studies on powder segregation in mixing were conducted primarily on pharmaceutical or food powder that have different properties compared to metal or ceramic powder used in binder jetting gotrax handlebar additive manufacturing.There is a need for a deep understanding of how mixing speed and mixing time affect powder segregation in the context of binder jetting additive manufacturing.This paper reports an experimental investigation using a two-variable, two-level full-factorial design to examine the main effects and interaction effect quadruple topical ointment for dogs of mixing speed and mixing time on powder segregation in the mixing of Powder A and Powder B for binder jetting additive manufacturing.The results reveal that segregation was more severe at the high level of mixing speed and the high level of mixing time.

These findings provide useful insights for selecting mixing variables and controlling segregation, essential for achieving high-quality printed parts in binder jetting additive manufacturing.