Fatigue – finished projects
![Concrete specimen after failure due to cyclic loading](https://tu-dresden.de/bu/bauingenieurwesen/imb/ressourcen/bilder/bilder-forschung/forschungsfeld-besondere-belastungen/2022-Boegl.jpg/@@images/28fe8ef5-0a67-4d88-8a42-7c0a1e78380d.jpeg)
Concrete specimen after failure due to cyclic loading
Fatigue resistance of different mixtures further details
Client: Firmengruppe Max Bögl, Sengenthal
Period: 03/2022 – 06/2023
![Two imbalanced rotors to generate vertical forces to Demonstrator II](https://tu-dresden.de/bu/bauingenieurwesen/imb/ressourcen/bilder/bilder-forschung/forschungsfeld-besondere-belastungen/ResoWind-2021.jpg/@@images/61fa5fa2-ca3c-4586-90f3-016fe21631f7.jpeg)
Two imbalanced rotors to generate vertical forces to Demonstrator II
SP ABT.Reso.TUD: Resonance-based test methods for structural elements under axial and bending loads within the joint research project ResoWind: Resonance-based testing methods for cost- and time-optimized lifetime studies on support structure elements of wind turbines more details
Funding: BMWK
Period: 12/2019 – 11/2022
![Detailed view of a fatigue damage](https://tu-dresden.de/bu/bauingenieurwesen/imb/ressourcen/bilder/bilder-forschung/forschungsfeld-besondere-belastungen/VHCF-2021.jpg/@@images/a064eb93-9158-4600-9b35-f97494033204.jpeg)
Detailed view of a fatigue damage
Stress redistribution in concrete structures subjected to very high cycle fatigue loading more details
Funding: DFG
Period: 09/2019 – 06/2023
![Ultrasounic investigation of a large concrete beam](https://tu-dresden.de/bu/bauingenieurwesen/imb/ressourcen/bilder/bilder-forschung/forschungsfeld-besondere-belastungen/WinConFat-DBV-2020.jpg/@@images/fe30279a-2876-4bc2-9db5-49bed7a30c8b.jpeg)
Ultrasounic investigation of a large concrete beam
Methods for structural health monitoring of wind turbines, integrated in the joint research project WinConFat: Material fatigue of onshore and offshore wind turbines made of reinforced concrete and prestressed concrete under high cyclic loads more details
Funding: DBV / WinConFat
Period: 09/2018 – 12/2020
![JB2017_Temperaturfelder_PK mit Waermefuehler_©Melchior Deutscher.jpg](https://tu-dresden.de/bu/bauingenieurwesen/imb/ressourcen/bilder/bilder-forschung/bilder-neue-betone-und-mehraxial/lastinduzierte-temperaturfelder/JB2017_Temperaturfelder_PK-mit-Waermefuehler_-c-Melchior-Deutscher.jpg/@@images/fbe72a0d-316f-48e2-a7e5-f99ac568a80b.jpeg)
Specimen for test under cyclic loading with three thermocouples distributed over the sample’s height
Influence of load-induced temperature fields on the fatigue behaviour of UHPC subjected to high frequency compression loading further details
Funding: DFG (SPP 2020)
Period: 03/2022
![Beam-end test with splitting crack](https://tu-dresden.de/bu/bauingenieurwesen/imb/ressourcen/bilder/bilder-forschung/forschungsfeld-besondere-belastungen/WinConFat-ZUG-2020.jpg/@@images/eca707db-3a3d-406a-8d37-0c6e3d3cc047.jpeg)
Beam-end test with splitting crack
SP Bond under tensile cyclic loading within the joint research project WinConFat: Material fatigue of on- and offshore wind powered plants out of reinforced concrete and prestressed concrete under high cyclic loading further details
Funding: BMWi
Period: 11/2016 – 02/2021
Possibilities for accelerating investigations of concrete fatigue under very high numbers of load cycles more information
Funding: DAfStb
Period: 01/2012 – 12/2016
The bond behaviour of HPC and reinforcing steel under fatigue loading further details
Period: 04/1997 – 06/2005