BIDARE, Prveen, BITHARAS, I, WARD, RM, ATTALLAH, MM and MOORE, AJ (2018). Laser powder bed fusion at sub-atmospheric pressures. International Journal of Machine Tools and Manufacture, 130, 65-72. [Article]
Documents
33283:638135
PDF
1-s2.0-S0890695518300671-main.pdf - Published Version
Available under License Creative Commons Attribution.
1-s2.0-S0890695518300671-main.pdf - Published Version
Available under License Creative Commons Attribution.
Download (5MB) | Preview
Abstract
The perceived advantages of laser powder bed fusion (PBF) at reduced pressure include a more stable melt pool and reduced porosity. In this study, high-speed imaging was used to investigate the interaction of the laser beam with the powder bed at sub-atmospheric pressures. At atmospheric pressure, the laser plume produces a flow in the ambient atmosphere that entrains particles toward the melt pool. As the pressure decreases, this hydrodynamic entrainment increases but eventually the expansion of the laser plume prevents the particles reaching the melt pool: profiles and cross-sections of the track reveal a drastic reduction in its cross-sectional area. As the pressure decreases further, into the molecular flow regime, particles are only repelled by the plume away from the melt pool. The regime between 1 bar and ∼50 mbar (the threshold pressure at which the penetration depth no longer increases) could provide a window for successful processing but might require a pre-sinter to maintain the integrity of the powder bed. Lower pressures would definitely require a pre-sinter, for which the additional processing time and increase in process complexity might be justified for porosity-critical applications.
More Information
Statistics
Downloads
Downloads per month over past year
Metrics
Altmetric Badge
Dimensions Badge
Share
Actions (login required)
View Item |