Journal
CIRP JOURNAL OF MANUFACTURING SCIENCE AND TECHNOLOGY
Volume 35, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.cirpj.2021.07.004
Keywords
Laser powder bed fusion; Process gas; Helium; Ti-6Al-4V; Spatters; Shadowgraphy
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Funding
- Swedish Governmental Agency of Innovation Systems (Vinnova)
- Chalmers University of Technology
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The study found that using pure helium or a mixture of helium and argon during laser powder bed fusion can significantly reduce the generation of hot spatters, and the addition of helium can also cool the spatters more quickly, reducing the risk of powder bed degradation.
The effect of the process gas during laser powder bed fusion (L-PBF) was investigated using high-speed shadowgraphy while melting Ti-6Al-4V powder under high purity argon, helium, and a mixture of both, on a laboratory-scale machine. These recordings reveal that the generation of incandescent spatters can be reduced by at least 60% using pure helium and by similar to 30% using addition of helium to argon in comparison to the use of traditional argon. The quantity of colder spatters appeared unaffected by the change of process gas. Different configurations of gas flow versus laser scanning direction were investigated and revealed that fumes and spatters are less accumulated at the laser spot with helium addition. Furthermore, the use of the argon-helium mixture proved to be as efficient as pure argon in the dragging and extraction of the fumes. Shadowgraphs revealed the more rapid expansion of fumes in helium-rich atmospheres, limiting the accumulation of scattering objects close to the laser spot and thus melt pool instability. These results were correlated to process snapshots on an industrial-scale system, confirming the reduction of hot spatter generation. Finally, the findings put in evidence the more rapid cooling of spatters with helium addition to the process gas - a promising aspect to limit powder bed degradation during L-PBF. In addition, the use of mixtures of helium and argon would be economically interesting compared to pure helium, typically more expensive than the traditionally used argon. (C) 2021 CIRP.
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