Image Analytics And Machine Learning For In-Situ Defects Detection In Additive Manufacturing

Davide Cannizzaro1,a, Antonio Giuseppe Varrella1,b, Stefano Paradisoa, Roberta Sampieria, Enrico Macii1,c, Edoardo Patti1,d and Santa Di Cataldo1,e
1Politecnico di Torino, Turin, Italy
aDavide.Cannizzaro@polito.it
bAntonioGiuseppe.Varrella@polito.it
cEnrico.Macii@polito.it
dEdoardo.Patti@polito.it
eSanta.DiCataldo@polito.it
2FCA Product Development AM Centre, Turin, Italy
aStefano.Paradiso@fcagroup.com
bRoberta.Sampieri@fcagroup.com

ABSTRACT


In the context of Industry 4.0, metal Additive Manufacturing (AM) is considered a promising technology for medical, aerospace and automotive fields. However, the lack of assurance of the quality of the printed parts can be an obstacle for a larger diffusion in industry. To this date, AM is most of the times a trial-and-error process, where the faulty artefacts are detected only after the end of part production. This impacts on the processing time and overall costs of the process. A possible solution to this problem is the in-situ monitoring and detection of defects, taking advantage of the layer-by-layer nature of the build. In this paper, we describe a system for in-situ defects monitoring and detection for metal Powder Bed Fusion (PBF), that leverages an off-axis camera mounted on top of the machine. A set of fully automated algorithms based on Computer Vision and Machine Learning allow the timely detection of a number of powder bed defects and the monitoring of the object’s profile for the entire duration of the build.

Keywords: Industry 4.0, Additive Manufacturing, Powder Bed Fusion, Computer Vision, Machine Learning.



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