8.3 Thermografische Verfahren
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Erscheinungsjahr
- 2019 (2) (entfernen)
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- Zeitschriftenartikel (2) (entfernen)
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- Englisch (2)
Referierte Publikation
- ja (2)
Schlagworte
- GFRP (1)
- Impact behaviour (1)
- Laminates (1)
- NDT (1)
- Pulsed thermography (1)
- Thermal analysis (1)
- Wind rotor blade (1)
Organisationseinheit der BAM
Low-velocity impact damages were monitored in-situ using an infrared camera before, during and after Impact load. Thermal images were recorded as a function of time at the front side (impact) as well as at the rear side of the plates using a high frame rate. In CFRP and GFRP specimens with different thicknesses and made of various types of fibers and matrix materials, different kind of damages were observed. The sizes of the heated areas being related to the damages and the amount of energy dissipated into heat was determined quantitatively as a function of impact energy and are a measure of the resistance of the different materials against impact load.
Active thermography is a well suited non-destructive testing method for the challenging inspection of wind rotor blades. Since the GFRP structures are up to some centimetres thick, long pulse heating is required to provide an appropriate energy input into the structure. So far, no best practice exists to guarantee a reliable detection of deep-lying flaws. In this work, a step wedge specimen having a maximum thickness of 34mm is systematically investigated by experiment and well-matched simulations to assess the influence of the experimental parameters, like the absorbed energy, on thermal contrasts. Finally, a scheme to conduct full-scale test of a wind rotor blade in less than three hours is proposed.