Litcius/Paper detail

In situ detection of cracks during laser powder bed fusion using acoustic emission monitoring

Mikhail Seleznev, Tobias Gustmann, Judith Friebel, Urs A. Peuker, U. Kühn, Julia Kristin Hufenbach, Horst Biermann, Anja Weidner

2022Additive Manufacturing Letters33 citationsDOIOpen Access PDF

Abstract

Despite rapid development of laser powder bed fusion (L-PBF) and its monitoring techniques, there is still a lack of in situ crack detection methods, among which acoustic emission (AE) is one of the most sensitive. To elaborate on this topic, in situ AE monitoring was applied to L-PBF manufacturing of a high-strength Al92Mn6Ce2 (at. %) alloy and combined with subsequent X-ray computed tomography. By using a structure borne high-frequency sensor, even a simple threshold-based monitoring was able to detect AE activity associated with cracking, which occurred not only during L-PBF itself, but also after the build job was completed, i.e. in the cooling phase. AE data analysis revealed that crack-related signals can easily be separated from the background noise (e.g. inert gas circulation pump) through their specific shape of a waveform, as well as their energy, skewness and kurtosis. Thus, AE was verified to be a promising method for L-PBF monitoring, enabling to detect formation of cracks regardless of their spatial and temporal occurrence.

Topics & Concepts

Acoustic emissionMaterials scienceCrackingIn situAcousticsKurtosisLaserComposite materialOpticsMeteorologyPhysicsMathematicsStatisticsAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesAdditive Manufacturing and 3D Printing Technologies