Boussinot, G.; Brener, E. A.: Achieving realistic interface kinetics in phase field models with a diffusional contrast. Physical Review E 89 (6), 060402 (2014)
Boussinot, G.; Brener, E. A.: Interface kinetics in phase field models: Isothermal transformations in binary alloys and steps dynamics in molecular-beam-epitaxy. Physical Review E 88 (2), 022406 (2013)
Brener, E. A.; Boussinot, G.: Kinetic cross coupling between nonconserved and conserved fields in phase field models. Physical Review E 86 (5/1), 060601 (2012)
Hüter, C.; Boussinot, G.; Brener, E. A.; Spatschek, R.: Solidification in syntectic and monotectic systems. Physical Review E 86 (2), pp. 021603-1 - 021603-7 (2012)
Hüter, C.; Boussinot, G.; Brener, E. A.; Temkin, D. E.: Solidification along the interface between demixed liquids in monotectic systems. Physical Review E 83, pp. 050601-1 - 050601-4 (2011)
Boussinot, G.; Hüter, C.; Brener, E.A.; Temkin, D.E.: Growth of a two-phase finger in eutectics systems. Physical Review E. 83, pp. 020601-1 - 020601-4 (2011)
Hüter, C.; Boussinot, G.; Brener, E. A.; Spatschek, R. P.: Isothermal solidification in peritectic systems. In: Proceedings of the 2nd High Mangenese Steels Conference 2014 (2nd HMnS) (Eds. Bleck, W.; Raabe, D.). 2nd High Mangenese Steels Conference 2014 (2nd HMnS), Aachen, Germany, August 31, 2014 - September 04, 2014. (2014)
Scientists of the Max-Planck-Institut für Eisenforschung pioneer new machine learning model for corrosion-resistant alloy design. Their results are now published in the journal Science Advances
International researcher team presents a novel microstructure design strategy for lean medium-manganese steels with optimized properties in the journal Science
The atomic arrangements in extended planar defects in different types of Laves phases is studied by high-resolution scanning transmission electron microscopy. To understand the role of such defect phases for hydrogen storage, their interaction with hydrogen will be investigated.
This project (B06) is part of the SFB 1394 collaborative research centre (CRC), focused on structural and atomic complexity, defect phases and how they are related to material properties. The project started in January 2020 and has three important work packages: (i) fracture analysis of intermetallic phases, (ii) the relationship of fracture to…