Brink, T.; Kim, D.; Dehm, G.: Atomistic computer simulations of the influence of grain boundary phases on segregation. DPG-Frühjahrstagung 2025, Regensburg, Germany (2025)
Lee, J. S.; Riedel, J. L.; Kauffmann, A.; Guth, S.; Heilmaier, M.; Kanjilal, A.; Dehm, G.; Best, J. P.; Stein, F.: The Effect of Vacancy Concentration on the Micromechanical Behaviour of B2 FeAl Diffusion Couples Covering a Wide Range of Compositions. Intermetallics 2025, Bad Staffelstein, Germany (2025)
Dehm, G.: Effects of Grain Boundary Structure and Chemistry on Plasticity in Metals. Nanomechanical Testing in Materials Research and Development IX, Messina (Sicily), Italy (2024)
Dehm, G.: Towards Understanding Dislocation Strengthening Mechanisms of Cr(Mn)FeCoNi high entropy alloys by advanced (S)TEM. ELMINA 2024, Belgrade, Serbia (2024)
Zhou, X.; Hickel, T.; Gault, B.; Ophus, C.; Liebscher, C.; Dehm, G.; Raabe, D.: Exploring the Relationship Between Grain Boundary Structure and Chemical Composition at the Atomic Level. International Conference on Intergranular and Interphase Boundaries in Materials (IIB 2024), Beijing, China (2024)
Dehm, G.: Atomic resolved imaging of grain boundary phase transitions in pure and alloyed metallic thin films. 17th International Conference on Intergranular and Interphase Boundaries in Materials (IIB 2024), Beijing, China (2024)
Lee, J. S.; Dehm, G.; Best, J. P.; Stein, F.: A Micromechanical Study on the Correlation of Composition and Properties of B2 FeAl across the Interface of an Fe–Al Diffusion Couple. ECR Day, Ruhr Universität Bochum, Bochum, Germany (2024)
Dehm, G.; Devulapalli, V.; Schulz, F.; Soares Barreto, E.; Ellendt, N.; Jägle, E. A.: Strengthening of CoCrFe(Mn)Ni high entropy alloys by dislocation pinning: From Lattice friction & SRO to particle strengthening. Possibilities and Limitations of Quantitative Materials Modeling and Characterization 2024, Bernkastel-kues, Germany (2024)
Vacirca, D.; Bignoli, F.; Li Bassi, A.; Best, J. P.; Dehm, G.; Faurie, D.; Djemia, P.; Ghidelli, M.: Boosting mechanical properties of thin film high entropy alloys through nanoengineering design strategies. 16th International Conference on Local Mechanical Properties, Prague, Czech Republic (2024)
Bhat, M. K.; Brink, T.; Ding, H.; Jung, C.; Best, J. P.; Dehm, G.: Influence of the Structure and Chemistry of Σ5 Grain Boundaries on Microscale Strengthening in Cu Bicrystals. TMS Annual Meeting and Exhibition 2024, Orlando, FL, USA (2024)
We have studied a nanocrystalline AlCrCuFeNiZn high-entropy alloy synthesized by ball milling followed by hot compaction at 600°C for 15 min at 650 MPa. X-ray diffraction reveals that the mechanically alloyed powder consists of a solid-solution body-centered cubic (bcc) matrix containing 12 vol.% face-centered cubic (fcc) phase. After hot compaction, it consists of 60 vol.% bcc and 40 vol.% fcc. Composition analysis by atom probe tomography shows that the material is not a homogeneous fcc–bcc solid solution
Magnetic properties of magnetocaloric materials is of utmost importance for their functional applications. In this project, we study the magnetic properties of different materials with the final goal to discover new magnetocaloric materials more suited for practical applications.