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- Title
Micron-Level Layer-Wise Surface Profilometry to Detect Porosity Defects in Powder Bed Fusion of Inconel 718.
- Authors
Barrett, Chris; MacDonald, Eric; Conner, Brett; Persi, Fred
- Abstract
Additive manufacturing (AM) enables a fabrication freedom and is transforming the manner in which high-value and high-performance structures are created. The aerospace industry stands to benefit from structures in which the weight is minimized, the materials provide good mechanical properties at extreme temperatures, and a swarm of distinct parts can be consolidated into a single non-assembled complex structure. However, for additive manufactured parts to be used in flight-critical applications, the quality of the resulting fabricated parts must be well understood in light of the lack of flight heritage. As AM is performed layer-by-layer, new opportunities exist to monitor the fabrication in situ and non-destructively, and to provide a qualify-as-you-go paradigm. In this study, a high-resolution laser line scan profilometer is used just after a layer has been selectively melted, and the sensor is mounted to the recoater arm to provide unobtrusive and inexpensive access to the top of the powder bed. The driving hypothesis of the effort was that fused and unfused powder would lie at different elevations, as the fused powder volume would consolidate and therefore become depressed. Consequently, this measurement could both verify the intended geometry and identify any lack of fusion defects. Furthermore, some preliminary anecdotal evidence has shown that spatter can also be identified, and thus profilometry can inform the minimization of contamination (build chamber argon flow, build layout strategies, etc.).
- Subjects
POROSITY; ADDITIVES; FABRICATION (Manufacturing); AEROSPACE industries; TEMPERATURE
- Publication
JOM: The Journal of The Minerals, Metals & Materials Society (TMS), 2018, Vol 70, Issue 9, p1844
- ISSN
1047-4838
- Publication type
Article
- DOI
10.1007/s11837-018-3025-7