Activity Development of SEBM alloys

Internally funded project

Project Details

Project leader:
Prof. Dr.-Ing. Carolin Körner

Contributing FAU Organisations:
Lehrstuhl für Werkstoffwissenschaften (Werkstoffkunde und Technologie der Metalle)

Start date: 01/01/2000
End date: 31/12/2020

Research Fields

Additive Manufacturing
Lehrstuhl für Werkstoffwissenschaften (Werkstoffkunde und Technologie der Metalle)

Abstract (technical / expert description):

We investigate the potential of SEBM for processing of technical alloys based on Iron Aluminides, Nickel and Copper as well as amorphous metals.

For Iron aluminides, the focus is on the influence of additional elements such as Boron and Titanium on the workability, the microstructure and the resulting properties.  

Concerning pure Copper and Copper alloys our focus is on the influence of minor elements or contaminations such as Oxygen or Phosphorus on the resulting properties, in particular the achievable heat conductivity


Guschlbauer, R., Momeni, S., Osmanlic, F., & Körner, C. (2018). Process development of 99.95% pure copper processed via selective electron beam melting and its mechanical and physical properties. Materials Characterization.
Momeni, S., Guschlbauer, R., Osmanlic, F., & Körner, C. (2018). Selective electron beam melting of a copper-chrome powder mixture. Materials Letters, 223, 250-252.
Pobel, C., Lodes, M., & Körner, C. (2018). Selective Electron Beam Melting of Oxide Dispersion Strengthened Copper. Advanced Engineering Materials, 20(8).
Raab, S., Guschlbauer, R., Lodes, M., & Körner, C. (2016). Thermal and Electrical Conductivity of 99.9% Pure Copper Processed via Selective Electron Beam Melting. Advanced Engineering Materials, 18(9), 1661-1666.
Lodes, M., Guschlbauer, R., & Körner, C. (2015). Process development for the manufacturing of 99.94% pure copper via selective electron beam melting. Materials Letters, 143, 298-301.

Last updated on 2018-15-10 at 11:55