Arnold C, Breuning C, Körner C (2021)
Publication Language: English
Publication Type: Journal article
Publication year: 2021
Book Volume: 14
Article Number: 7240
Journal Issue: 23
DOI: 10.3390/ma14237240
The current study evaluates the capabilities of electron-optical (ELO) in situ imaging with respect to monitoring and prediction of manufacturing precision in electron beam powder bed fusion. Post-process x-ray computed tomography of two different as-built parts is used to quantitatively evaluate the accuracy and limitations of ELO imaging. Additionally, a thermodynamic simulation is performed to improve the understanding of ELO data and to assess the feasibility of predicting dimensional accuracy numerically. It is demonstrated that ELO imaging captures the molten layers accurately (deviations < 100 µm) and indicates the creation of surface roughness. However, some geometrical features of the as-built parts exhibit local inaccuracies associated with thermal stress-induced deformation (deviations up to 500 µm) which cannot be captured by ELO imaging. It is shown that the comparison between in situ and post-process data enables a quantification of these effects which might provide the possibility for developing effective countermeasures in the future.
APA:
Arnold, C., Breuning, C., & Körner, C. (2021). Electron-Optical In Situ Imaging for the Assessment of Accuracy in Electron Beam Powder Bed Fusion. Materials, 14(23). https://dx.doi.org/10.3390/ma14237240
MLA:
Arnold, Christopher, Christoph Breuning, and Carolin Körner. "Electron-Optical In Situ Imaging for the Assessment of Accuracy in Electron Beam Powder Bed Fusion." Materials 14.23 (2021).
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