Additive Manufacturing
In the "Additive Manufacturing" focus area, we offer exciting theses on the topic of metallic "3D printing". In the working group, we deal with the process-structure-property relationships of structural materials through to functional materials produced using additive manufacturing. As a final-year student, you too can get to know the diverse possibilities of additive manufacturing. Starting with the relative density of components, through microstructure design to mechanical and corrosive properties, there are still a large number of open questions that need to be researched.
Head of the research focus:
Further contact persons:
Current research projects:
- Evaluation of the influence of deep rolling on the mechanical and corrosive properties of the additively manufactured aluminum alloy AlSi10Mg
- Adjustment of microstructure and degradation behavior of oxide particle-modified Fe alloys by selective electron beam melting
- Influences of nitrogen addition to aluminum-alloyed stainless steels via additive manufacturing and solid-state nitriding
- High-strength steel with high damage tolerance for additive manufacturing
- Combined production of AISI H13 tool steel using laser-based additive manufacturing and mechanical post-processing to increase service life and durability
- Influence of residual stresses on crack propagation behavior in microstructurally graded samples produced via laser-based additive manufacturing
- Investigation of the process-dependent microstructure and mechanical properties of E-PBF processed Ti-27Nb-6Ta with low modulus of elasticity based on pre-alloyed powders
- Interaction of hydrogen flames and smart effusion-cooled gas turbine combustor walls 42CrMo4 processed by electron beam melting in a powder bed with subsequent surface layer treatment - From process strategy to material properties