Print Email Facebook Twitter Laser shape variation influence on melt pool dynamics and solidification microstructure in laser powder bed fusion Title Laser shape variation influence on melt pool dynamics and solidification microstructure in laser powder bed fusion Author Li, Erlei (University of Queensland) Shen, Haopeng (CSIRO Manufacturing, Victoria) Wang, L. (TU Delft QN/Akhmerov Group) Wang, Geoff (University of Queensland) Zhou, Zongyan (Monash University; Jiangxi University of Science and Technology) Date 2023 Abstract The shape variation of the laser beam is evidently observed in the laser powder bed fusion (LPBF) process because of changes in laser incidence angle and misalignment between the build plate and the laser focus plane. This issue is particularly relevant in large-scale LPBF systems where the laser beam needs to scan a large build area. However, most LPBF modeling studies assume vertical laser radiation. The heat transfer, melt pool, and solidification evolution due to the laser shape variation have not been well addressed and quantified. In the present study, the temperature distribution, melt pool geometry and flow dynamics are captured via numerical modelling, and the grain morphology is characterized under various laser incidence angles. The results show that the melt pool depth becomes shallower, and the width is near the beam size as the laser beam becomes more elongated. The beam shape variation can affect the liquid flow pattern with increasing incidence angle, resulting in a larger vortex at the front of the melt pool and a smaller vortex at the rear of the melt pool. The thermal gradient increases and the solidification rate decreases as the laser incident angle becomes larger. The present study enhances the understanding of multi-physics in the LPBF process. Subject Laser incidence angleLaser powder bed fusionLaser shape variationMelt pool dynamicsSolidification microstructure To reference this document use: http://resolver.tudelft.nl/uuid:9721197d-bb95-4784-930c-2531821e1b86 DOI https://doi.org/10.1016/j.addlet.2023.100141 Source Additive Manufacturing Letters, 6 Part of collection Institutional Repository Document type journal article Rights © 2023 Erlei Li, Haopeng Shen, L. Wang, Geoff Wang, Zongyan Zhou Files PDF 1_s2.0_S2772369023000221_main.pdf 2.04 MB Close viewer /islandora/object/uuid:9721197d-bb95-4784-930c-2531821e1b86/datastream/OBJ/view