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Effect of DED process parameters on distortion and residual stress state of additively manufactured Ti-6Al-4V components during machining
Citation Link: https://doi.org/10.15480/882.4608
Publikationstyp
Journal Article
Date Issued
2022-09
Sprache
English
Author(s)
Romanenko, Denys
TORE-DOI
Journal
Volume
111
Start Page
271
End Page
276
Citation
Procedia CIRP 111: 271-276 (2022)
Contribution to Conference
Publisher DOI
Scopus ID
Publisher
Elsevier
One of the major challenges in high-deposition rate Directed Energy Deposition processes is the resultant residual stresses generated during material deposition, often leading to distortion and poor material characteristics. Important part families suitable for DED process in aerospace sector are thin-wall components, characterized by a large base surface area with rib-like strengthening structures. Here, the substrate plate can be designed to be a part of the final component. The integration of substrate plate into final component results in possible deformation due to residual stress release during machining. This paper therefore investigates the effect of various powder-based Laser Metal Deposition process parameters and strategies on the residual stress state of the additively manufactured Ti-6Al-4V components and the resulting stress release during machining process. The analysis has been carried out during the machining process by including in-process strain measurements of the substrate. The embraced layer removal method allows the determination of machining zone specific stress release mapping, based on an analytical and FEM-model. Hence, the initial residual stress state of the builds was calculated, which revealed that although the heat treatment resolved most of the residual stresses, also in heat treated parts residues were identified depending on the part clamping during the treatment. Furthermore, the study revealed that the significant residual stresses are present in the layers close to the substrate.
Subjects
Directed Energy Deposition
Residual Stresses
Distortion
Process Parameters
Machining Strategies
DDC Class
530: Physik
600: Technik
620: Ingenieurwissenschaften
Publication version
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