Enhancing the efficiency of laser-based powder bed fusion of metals through the use of localized and vertically directed shielding gas flow
Medvedev V, Kopp SP, Roth S (2024)
Publication Type: Journal article
Publication year: 2024
Journal
Book Volume: 36
Article Number: 042032
Journal Issue: 4
DOI: 10.2351/7.0001634
Abstract
The trajectory of metal additive manufacturing is transitioning from rapid prototyping toward on-demand and serial production. Consequently, the paramount objective remains the enhancement of additive manufacturing processes like laser-based powder bed fusion of metals (PBF-LB/M) to meet modern manufacturing needs and reduce environmental impact. Shielding gas flow significantly influences the mechanical properties in PBF-LB/M by protecting the metal from oxidation and removing process by-products from the powder melting zone. Accordingly, an improper shielding gas flow distribution can result in poor part quality, excessive inert gas consumption, and contamination of the building chamber. Presently, a lack of consensus remains regarding which configuration of shielding gas supply is the most appropriate in terms of process efficiency. This is the comprehensive investigation of a localized and vertically directed shielding gas flow and its effects on the properties of parts, also taking into account the reduction of inert gas consumption. In contrast to previous investigations, it is shown that enhanced surface roughness and relative density of the parts, as well as minimized contamination of the optics inside the building chamber is achieved through more efficient removal of metal plume particles from the processing zone by localized gas flow. Moreover, the developed computational fluid dynamics simulation model enabled the efficient determination of particularly promising gas flow configurations. Furthermore, the validation of the simulation model is demonstrated in an experimental environment. Finally, by localizing shielding gas flow, energy consumption can be reduced by almost half.
Involved external institutions
Germany (DE)How to cite
APA:
Medvedev, V., Kopp, S.P., & Roth, S. (2024). Enhancing the efficiency of laser-based powder bed fusion of metals through the use of localized and vertically directed shielding gas flow. Journal of Laser Applications, 36(4). https://doi.org/10.2351/7.0001634
MLA:
Medvedev, Vadim, Sebastian Paul Kopp, and Stephan Roth. "Enhancing the efficiency of laser-based powder bed fusion of metals through the use of localized and vertically directed shielding gas flow." Journal of Laser Applications 36.4 (2024).
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