DFG-Research Training Group 2561
"Materials Compounds from Composite Materials"

Researchers

List of all involved principle investigators and members of the GRK 2561.

  Name Position
Prof. Martin Heilmaier
Institute for Applied Materials (KIT)
Spokesperson
Prof. Dr. Ralf Riedel
MatCOM-COMMat
MatCOM-COMMat
Co Spokesperson
Prof. Karsten Albe
Department of Materials and Earth Sciences (TUD)
PD Mathias Galetz
DECHEMA-Forschungsinstitut (DFI)
Prof. Hans-Joachim Kleebe
Department of Materials and Earth Sciences (TUD)
Dr. Maren Lepple
DECHEMA-Forschungsinstitut (DFI)
Prof. Britta Nestler
Institute for Applied Materials (KIT)
Prof. Matthias Oechsner
Staatliche Materialprüfungsanstalt Darmstadt (TUD)
Prof. Astrid Pundt
Institute for Applied Materials (KIT)
Prof. Ruth Schwaiger
Institut für Energie- und Klimaforschung (former KIT, now FZJ)
Prof. Hans Jürgen Seifert
Institute for Applied Materials (KIT)
Prof. Bai-Xiang Xu
Department of Materials and Earth Sciences (TUD)
  Name Project
M. Sc. Jan Bernauer
Department of Materials and Earth Sciences (TUD)
PhD student
Project 1: Single-source precursor synthesis of ceramic nanocomposites for (ultra) high-temperature applications
M. Sc. Samuel Aeneas Kredel
Department of Materials and Earth Sciences (TUD)
PhD student
Project 2: Preparation of ceramic coatings based on ultrahigh-temperature ceramic nanocomposites (UHTC-NCs) from precursors
M. Sc. Nathalie Thor
Department of Materials and Earth Sciences (TUD)
PhD student
Project 3: Material Compounds from Composite Materials for Applications under Extreme Conditions
M. Sc. Yangyiwei Yang
Department of Materials and Earth Sciences (TUD)
PhD student
Project 4: Thermomechanical Properties of Ceramic-Nanocomposite-Based Monoliths and Coatings
M. Sc. Mozhdeh Fathidoost
Department of Materials and Earth Sciences (TUD)
Assoc. PhD student
Project 4: Thermomechanical Properties of Ceramic-Nanocomposite-Based Monoliths and Coatings
M. Sc. Nils-Christian Petry
DECHEMA-Forschungsinstitut (DFI)
PhD student
Project 5: High-temperature oxidation behavior of ceramic coatings based on polymer-derived ceramic nanocomposites
M. Sc. Jurica Filipovic
Staatliche Materialprüfungsanstalt Darmstadt (TUD)
PhD student
Project 6: Evolution of Mechanical Properties of Coating Systems during Exposure at High Temperature
Dr. Christian Kontermann
Staatliche Materialprüfungsanstalt Darmstadt (TUD)
Assoc. PostDoc
Project 6: Evolution of Mechanical Properties of Coating Systems during Exposure at High Temperature
M. Sc. Katharina Beck
DECHEMA-Forschungsinstitut (DFI)
PhD student
Project 7: High-temperature Stability in Harsh Environments – Hot Corrosion of Refractory Silicides
Dr. Anke Silvia Ulrich
DECHEMA-Forschungsinstitut (DFI)
Assoc. PostDoc
Project 7: High-temperature Stability in Harsh Environments – Hot Corrosion of Refractory Silicides
M. Sc. Frauke Hinrichs
Institute for Applied Materials (KIT)
PhD student
Project 8: Evaluation of additive manufacturing for RM-Si(-B-X) based substrates
M. Sc. Michael Eusterholz
Institute for Applied Materials (KIT)
Assoc. PhD student
Project 8: Evaluation of additive manufacturing for RM-Si(-B-X) based substrates
Dr. Daniel Schliephake
Institute for Applied Materials (KIT)
Assoc. PostDoc
Project 8: Evaluation of additive manufacturing for RM-Si(-B-X) based substrates
M. Sc. Yuhan Cai
Institute for Applied Materials (KIT)
PhD student
Project 9: Phase-field simulations of multiphase microstructure evolution in binary and ternary Mo- Ti-Si-(B)
Dr. Michael Kellner
Institute for Applied Materials (KIT)
Assoc. PostDoc
Project 9: Phase-field simulations of multiphase microstructure evolution in binary and ternary Mo- Ti-Si-(B)
M. Sc. Georg Winkens
Institute for Applied Materials (KIT)
PhD student
Project 10: Small scale deformation and failure of Mo silicides
M. Sc. Andreas Czerny
Institute for Applied Materials (KIT)
PhD student
Project 11: Thermodynamics, kinetics and constitution in the Mo-Ti-Si(-B) system
M. Sc. David Kasdorf
Department of Materials and Earth Sciences (TUD)
PhD student
Project 12: Ab-initio calculations of bulk and interface properties at high temperatures