Dr.-Ing. Viktor Lyamkin Researchgate informationbox
Research projects: Micro-magnetic in-situ detection of the micro-structural evolution of steels subjected to fatigue loading in nuclear components for a short-time method for life prediction
Eddy current imaging with vibrating probe for materials science applications
Research projects funded by the German Research Foundation (DFG)
Separation of surface and volume damage due to HCF/VHCF loading to identify the re-use potential of quenched and tempered steels
In order to be able to use the pre-damaged components again in new machines and systems after reconditioning, a quantitative evaluation is required, w
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
Scientific assista
M. Sc. Jonas Ziman Researchgate informationbox
Research project: Quantified evaluation of the influence of stress frequency on the fatigue behaviour of unalloyed steels for implementation in resource-efficient fatigue life prediction methods
Scientific assistant
M. Eng. Srinivasa Raghavan Raghuraman Researchgate informationbox
Research project: Separation of surface and volume damage due to HCF/VHCF stress to identify the re-use potential of heat-treatable steels
Research assistant
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
