Frommeyer, G.: Properties of refractory NiAl-(Cr,Mo,Re) alloys in relation to atomic defects and microstructures. SCTE 16th International Conference on Solid Compounds of Transition Elements, Dresden, Germany (2008)
Frommeyer, G.; Rablbauer, R.: Ultrahigh strength and supraductile steels for automotive applications. SCT 08 Steel in Cars and Trucks, Wiesbaden, Germany (2008)
Hofmann, G.; Raabe, D.; Verbeken, K.; Frommeyer, G.: Inhomogeneity of the Crystallographic Texture in Hot Rolled High-manganese TWIP Steels. 15th International Conference on Textures of Materials (ICOTOM15), Carnegie Mellon University Center in Pittsburgh, PA, USA (2008)
Frommeyer, G.; Rablbauer, R.; Brokmeier, K.: Das Potential von hochfesten und supraduktilen Fe–Mn–Al–Si–C Stählen für den zukünftigen Karosserieleichtbau - Stand der Technik und Entwicklungstrends. WAMM World Automotive Materials Meeting 2008, Bad Nauheim/Frankfurt, Germany (2008)
Frommeyer, G.: Entwicklung, Mikrostrukturen und Eigenschaften hochfester und supraduktiler Leichtbaustähle aus Fe-Mn-Al-Si-(C)für zukünftige Designkonzepte im Fahrzeugbau. Forum für Metallurgie und Werkstofftechnik 2008, Loeben, Austria (2008)
Frommeyer, G.; Stein, F.; Knippscheer, S.; Rablbauer, R.: Development of high-temperature titanium and nickel aluminium intermetallics based on microgravity processing. Space for Innovation - Industry Forum for Material Research and Microgravity, Fachtagung "Materialforschung und Schwerelosigkeit für Industrieanwendungen", MPI für Eisenforschung (2008)
Stein, F.; Frommeyer, G.: High-performance soft Magnetic iron-silicon alloys for industrial applications processed under microgravity. Space for Innovation - Industry Forum for Material Research and Microgravity, Fachtagung "Materialforschung und Schwerelosigkeit für Industrieanwendungen", MPI für Eisenforschung, Düsseldorf (2008)
Stein, F.; Frommeyer, G.; Schneider, S. M.: Processing of eutectic NiAl–Cr and NiAl–Re alloys under microgravity. Meeting "TEMPUS Parabolic Flight September 2007", Bonn, Germany (2008)
Frommeyer, G.; Knippscheer, S.; Rablbauer, R.: Struktur und Eigenschaften von Titanaluminiden (TiAl) - Leichtbaulegierungen für High Performance Motorkomponenten. Clauthal Industriekolloquium Sonderforschungsbereich 675, Clausthal (2007)
In this project, we investigate the phase transformation and twinning mechanisms in a typical interstitial high-entropy alloy (iHEA) via in-situ and interrupted in-situ tensile testing ...
Solitonic excitations with topological properties in charge density waves may be used as information carriers in novel types of information processing.
The aim of this project is to develop novel nanostructured Fe-Co-Ti-X (X = Si, Ge, Sn) compositionally complex alloys (CCAs) with adjustable magnetic properties by tailoring microstructure and phase constituents through compositional and process tuning. The key aspect of this work is to build a fundamental understanding of the correlation between…
In this project, we employ a metastability-engineering strategy to design bulk high-entropy alloys (HEAs) with multiple compositionally equivalent high-entropy phases.
Low dimensional electronic systems, featuring charge density waves and collective excitations, are highly interesting from a fundamental point of view. These systems support novel types of interfaces, such as phase boundaries between metals and charge density waves.
In this project, links are being established between local chemical variation and the mechanical response of laser-processed metallic alloys and advanced materials.
In this project we conduct together with Dr. Sandlöbes at RWTH Aachen and the department of Prof. Neugebauer ab initio calculations for designing new Mg – Li alloys. Ab initio calculations can accurately predict basic structural, mechanical, and functional properties using only the atomic composition as a basis.
The wide tunability of the fundamental electronic bandgap by size control is a key attribute of semiconductor nanocrystals, enabling applications spanning from biomedical imaging to optoelectronic devices. At finite temperature, exciton-phonon interactions are shown to exhibit a strong impact on this fundamental property.