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Dr. Friederike Jensen
Institute of Agricultural Technology
Bundesallee 4738116 Braunschweig
- Telephone
- +49 531 2570 1650
- Fax
- +49 531 596 4199
- friederike.jensen@thuenen.de
Research assistant
Additional Information
- Since 2026:
Research assistant in mechanical engineering at the Thünen Institute of Agricultural Engineering - 2019–2026:
Research assistant and doctoral candidate at BIMAQ (Bremen Institute for Measurement Technology, Automation, and Quality Science) at the University of Bremen, specializing in infrared thermography - 2017–2019:
Master of Science (Mechanical Engineering) at the Technical University of Mining and Technology Freiberg, specializing in calculation and simulation - 2012–2017:
Bachelor of Science (Energy and Environmental Technology, Mechanical Engineering) at the Technical University of Hamburg-Harburg and the Technical University of Mining and Technology Freiberg, specializing in mining and special civil engineering machinery
Dissertation
(2025) “Thermografische Detektion von Erosionsschäden an Rotorblättern von Windenergieanlagen,”. doi:10.26092/ELIB/5255
Contributions in reviewed journals
1. Jensen, F., Sorg, M., con Freyberg, A., Balaresque, N., Fischer, A.
(2024) Detection of erosion damage on airfoils by means of thermographic flow visualization. In European Journal of Mechanics - B/Fluids 104. doi:10.1016/j.euromechflu.2023.12.004
2. Jensen, F., Jerg, J.F., Sorg, M., Fischer, A.
(2023) Active thermography for the interpretation and detection of rain erosion damage evolution on GFRP airfoils. In NDT & E International 135. doi:10.1016/j.ndteint.2022.102778
3. Jensen, F., Aoun, E.A., Focke, O., Krenz, A., Tornow, C., Schlag, M., Lester, C., Herrmann, A., Mayer, B., Sorg, M., Fischer, A.
(2022) Investigation of the causes of premature rain erosion evolution in rotor blade-like GFRP structures by means of CT, XRM, and active thermography. In Applied Science 12. doi:10.3390/app122211307
4. Jensen, F., Terlau, M., Sorg, M., Fischer, A.
(2021) Active thermography for the detection of sub-surface defects on a curved and coated GFRP-Structure. In Applied Science 11. doi:10.3390/app11209545
Conference contributions
1. Jensen, F., von Freyberg, A., Avila, M., Fischer, A.
(2023) Thermografische Untersuchung des Einflusses unterschiedlicher Aspektverhältnisse auf den Strömungsnachlauf von Kavitäten an Tragflächenprofilen. In 30. Fachtagung „Experimentelle Strömungsmechanik“, German Association for Laser Anemomentry, GALA e.V.
2. Jensen, F., Sorg, M., Fischer, A.
(2022) Damage development of initial defects in coated GFRP-structures due to rain exposure. In QIRT 2022 – Quantitative InfraRed Thermography Conference
3. Jensen, F., Sorg, M., Fischer, A.
(2021) Detection of initial subsurface defects in rotor blade leading edges of wind turbines by means of active thermography. In SMSI 2021 – Sensors and Instrumentation
4. Jensen, F., Sorg, M., Fischer, A.
(2020) Detection of initial subsurface defects on coated glass-fiber reinforced composite components by means of active micro-thermography. In SMSI 2020 – Sensors and Instrumentation
