Corrosion behavior of 316L additively produced by Directed Energy Deposition-Arc
- Among all additive manufacturing processes, Directed Energy Deposition-Arc (DED-Arc) shows significantly shorter production times and is particularly suitable for large-volume components of simple to medium complexity. To exploit the full potential of this process, the microstructural, mechanical and corrosion behavior have to be studied. High stickout distances lead to a large offset, which leads to an instable electric arc and thus defects such as lack of fusion. Since corrosion preferentially occurs at such defects, the main objective of this work is to investigate the influence of the stickout distance on the corrosion behavior and microstructure of stainless steel manufactured by DED-Arc. Within the heterogenous structure of the manufactured samples lack of fusion defects were detected. The quantity of such defects was reduced by applying a shorter stickout distance. The corrosion behavior of the additively manufactured specimens was investigated by means of potentiodynamic polarization measurements. The semi-logarithmic current density potential curves showed a similar course and thus similar corrosion resistance like that of the conventionally forged sample. The polarization curve of the reference material shows numerous current peaks, both in the anodic and cathodic regions. This metastable behavior is induced by the presence of manganese sulfides. On the sample surface a local attack by pitting corrosion was identified.
Author: | Marco Brand, Ghazal Moeini, Gabriela Marginean |
---|---|
DOI: | https://doi.org/10.1016/j.matpr.2022.11.194 |
Parent Title (English): | Materials Today: Proceedings |
Document Type: | Article |
Language: | English |
Year of Completion: | 2023 |
Year of first Publication: | 2023 |
Publishing Institution: | Westfälische Hochschule Gelsenkirchen Bocholt Recklinghausen |
Release Date: | 2024/09/05 |
Tag: | Additive manufacturing Directed energy deposition-arc 316L stainless steel Corrosion behavior Electrochemical corrosion |
Volume: | 2023 |
Issue: | 78 |
First Page: | 242 |
Last Page: | 250 |
Departments / faculties: | Fachbereiche / Maschinenbau und Facilities Management |
Licence (German): | Es gilt das Urheberrechtsgesetz |