Picture: Bernauer
| M. Sc. Jan BernauerDepartment of Materials and Earth Sciences (TUD) PhD student | Project 1: Single-source precursor synthesis of ceramic nanocomposites for (ultra) high-temperature applications |
Picture: Kredel
| M. Sc. Samuel Aeneas KredelDepartment of Materials and Earth Sciences (TUD) PhD student | Project 2: Preparation of ceramic coatings based on ultrahigh-temperature ceramic nanocomposites (UHTC-NCs) from precursors |
Picture: Thor
| M. Sc. Nathalie ThorDepartment of Materials and Earth Sciences (TUD) PhD student | Project 3: Material Compounds from Composite Materials for Applications under Extreme Conditions |
Picture: Yang
| M. Sc. Yangyiwei YangDepartment of Materials and Earth Sciences (TUD) PhD student | Project 4: Thermomechanical Properties of Ceramic-Nanocomposite-Based Monoliths and Coatings |
Picture: Fathidoost
| M. Sc. Mozhdeh
FathidoostDepartment of Materials and Earth Sciences (TUD) Assoc. PhD student | Project 4: Thermomechanical Properties of Ceramic-Nanocomposite-Based Monoliths and Coatings |
Picture: Petry
| M. Sc. Nils-Christian PetryDECHEMA-Forschungsinstitut (DFI) PhD student | Project 5: High-temperature oxidation behavior of ceramic coatings based on polymer-derived ceramic nanocomposites |
Picture: Filipovic
| M. Sc. Jurica FilipovicStaatliche Materialprüfungsanstalt Darmstadt (TUD) PhD student | Project 6: Evolution of Mechanical Properties of Coating Systems during Exposure at High Temperature |
Picture: Kontermann
| Dr. Christian KontermannStaatliche Materialprüfungsanstalt Darmstadt (TUD) Assoc. PostDoc | Project 6: Evolution of Mechanical Properties of Coating Systems during Exposure at High Temperature |
Picture: Beck
| M. Sc. Katharina BeckDECHEMA-Forschungsinstitut (DFI) PhD student | Project 7: High-temperature Stability in Harsh Environments – Hot Corrosion of Refractory Silicides |
Picture: Ulrich
| Dr. Anke Silvia UlrichDECHEMA-Forschungsinstitut (DFI) Assoc. PostDoc | Project 7: High-temperature Stability in Harsh Environments – Hot Corrosion of Refractory Silicides |
Picture: Hinrichs
| M. Sc. Frauke HinrichsInstitute for Applied Materials (KIT) PhD student | Project 8: Evaluation of additive manufacturing for RM-Si(-B-X) based substrates |
Picture: Eusterholz
| M. Sc. Michael EusterholzInstitute for Applied Materials (KIT) Assoc. PhD student | Project 8: Evaluation of additive manufacturing for RM-Si(-B-X) based substrates |
Picture: Schliephake
| Dr. Daniel
SchliephakeInstitute for Applied Materials (KIT) Assoc. PostDoc | Project 8: Evaluation of additive manufacturing for RM-Si(-B-X) based substrates |
Picture: Cai
| M. Sc. Yuhan CaiInstitute for Applied Materials (KIT) PhD student | Project 9: Phase-field simulations of multiphase microstructure evolution in binary and ternary Mo- Ti-Si-(B) |
Picture: Kellner
| Dr. Michael KellnerInstitute for Applied Materials (KIT) Assoc. PostDoc | Project 9: Phase-field simulations of multiphase microstructure evolution in binary and ternary Mo- Ti-Si-(B) |
Picture: Winkens
| M. Sc. Georg WinkensInstitute for Applied Materials (KIT) PhD student | Project 10: Small scale deformation and failure of Mo silicides |
Picture: Czerny
| M. Sc. Andreas
CzernyInstitute for Applied Materials (KIT) PhD student | Project 11: Thermodynamics, kinetics and constitution in the Mo-Ti-Si(-B) system |
Picture: Kasdorf
| M. Sc. David KasdorfDepartment of Materials and Earth Sciences (TUD) PhD student | Project 12: Ab-initio calculations of bulk and interface properties at high temperatures |