Publication date: 15 September 2018
Source:Materials & Design, Volume 154
Author(s): Carlos Doñate-Buendía, Felix Frömel, Markus B. Wilms, René Streubel, Jochen Tenkamp, Tim Hupfeld, Milen Nachev, Emine Gökce, Andreas Weisheit, Stephan Barcikowski, Frank Walther, Johannes Henrich Schleifenbaum, Bilal Gökce
A new method is proposed for producing nanoparticle-metal composite powders for laser additive manufacturing of oxide-dispersion strengthened (ODS) alloys. Different composite powders containing laser-generated Y2O3 and yttrium iron garnet (YIG) nanoparticles were produced and consolidated by Laser Metal Deposition (LMD). The structural properties of the manufactured ODS alloys were analyzed, and their hardness, remnant porosity, and temperature-dependent compression behavior were characterized to study the effect of the composition and size of the nanoparticles on the structural and mechanical properties. While the structural analyses did not show significant differences between the processed samples within the limits of the characterization methods that were used, the temperature-dependent compression behavior showed an increase of up to 22 ± 11% in the high-temperature strength of the specimens that contained only 0.08 wt% of laser-generated nanoparticles. This increase is attributed to the dispersed and deagglomerated nature of the nanoparticles that were used during the powder-preparation step.
Graphical abstract
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