M. Sc. Jan-Erik Nebel Researchgate informationbox
Research project: In-situ and ex-situ characterisation of microstructure evolution in the scanning electron microscope for the development of microstructure models on the model material copper
Use of Kerr microscopy to characterise the damage development in steels
B. Eng., B. Sc. Felix Ecker Researchgate informationbox
Activity: Project coordination of the joint HTS project "Printed Circuit Board Power Drive System"
Use of laboratory infrastructure
For questions regarding the use of the test and analysis facilities at the WWHK, please contact
Dipl.-Ing. (FH) Mario Dieter Elicker (Head of Lab) E-Mail
Dr.-Ing. Fabian Weber (mechanical testing) E-Mail
M. Sc. Janina Koziol (analytics and microscopy) E-Mail
Prof. PD Dr.-Ing. habil. Peter Starke E-
Utilisation of statistical approaches within the scope of lifetime prediction methods for notched specimens using the example of unalloyed steels
The construction of dynamically loaded metallic materials and components is usually based on the relation between the stress amplitude and the number of cycles to failure, which is displayed in S-N curve
Projects funded by the German Federal Ministry for the Environment, Climate Action, Nature Conservation and Nuclear Safety (BMUKN)
Micromagnetic in-situ detection of the microstructural evolution of fatigue-stressed steels of nuclear components for a short-time method for fatigue life prediction
The overall objective of the joint research pro
Group Leader "Analytics and Microscopy"
M. Sc. Janina Koziol Researchgate informationbox
Research projects: Characterisation of materials and structures using scanning electron microscopy and EDX, EBSD and STEM analysis
Use of the electrochemical potential to characterise the surface damage behaviour of cyclically stressed materials
