Knezevic, V.; Sauthoff, G.: Strengthening of Martensitic/Ferritic 12%Cr Model Steels Through Laves Phase Precipitation. Euromat 2003, 8th European Congress on Advanced Materials and Processes, München, Germany (2003)
Risanti, D. D.; Sauthoff, G.: Strengthening of Hot Corrosion-Resistant Fe-Al alloys Through Laves Phase Precipitation. Euromat 2003, 8th European Congress on Advanced Materials and Processes, München, Germany (2003)
Stallybrass, C.; Sauthoff, G.: Ferritic Fe–Al–Ni–Cr alloys for high temperature applications. Thirteenth International Conference on the Strength of Materials (ICSMA XIII), Budapest, Hungary (2003)
Schneider, A.; Falat, L.; Sauthoff, G.; Frommeyer, G.: Microstructures and Mechanical Properties of Fe–Al–C and Fe–Al–M–C (M = Ti, V, Nb, Ta) Alloys. TMS Annual Meeting - Intern. Symp. Intermetallic and Advanced Metallic Materials - A Symposium Dedicated to Dr. C. T. Li on His 65th Birthday, San Diego, CA, USA (2003)
Stein, F.; Palm, M.; Sauthoff, G.: Structures and Stability of Laves Phases. TMS Annual Meeting - Intern. Symp. Intermetallic and Advanced Metallic Materials - A Symposium Dedicated to Dr. C. T. Li on His 65th Birthday, San Diego, CA, USA (2003)
Schneider, A.; Frommeyer, G.; Sauthoff, G.: Intermetallics for High-Temperature Applications - Needs and Prospects. Intern. Symp. Progress of Metal Science, Tokyo (2002)
Stein, F.; Sauthoff, G.; Palm, M.: Intermetallic Phases and Phase Equilibria in the Fe–Zr and Fe–Zr–Al Systems. Discussion Meeting on Thermodynamics of Alloys (TOFA 2002), Rome, Italy (2002)
Palm, M.; Sauthoff, G.: Characterization and Processing of an Advanced Intermetallic NiAl-Base Intermetallic Alloy for High-Temperature Applications. Structural Intermetallics 2001 (ISSI-3), Jackson Hole, Wyoming (2002)
Stein, F.; Zhang, L.; Palm, M.; Sauthoff, G.: Al-Ti Alloys with Al-Rich Titanium Aluminides: Phase Equilibria, Evolution of Phases and Strength of Lamellar TiAl+r-Al2Ti Alloys. Structural Intermetallics 2001 (ISSI-3), Jackson Hole, Wyoming, USA (2002)
International researcher team presents a novel microstructure design strategy for lean medium-manganese steels with optimized properties in the journal Science
“Smaller is stronger” is well known in micromechanics, but the properties far from the quasi-static regime and the nominal temperatures remain unexplored. This research will bridge this gap on how materials behave under the extreme conditions of strain rate and temperature, to enhance fundamental understanding of their deformation mechanisms. The…