Figueiredo, Alisson A. A.D’Alessandro, G.Perilli, StefanoSfarra, StefanoFernandes, Henrique2024-10-212024-10-212024Figueiredo AAA, D’Alessandro G, Perilli S, et al., (2024) Exploring the potentialities of thermal asymmetries in composite wind turbine blade structures via numerical and thermographic methods: a thermophysical perspective. Journal of Thermal Analysis and Calorimetry, Available online 16 September 20241388-6150https://doi.org/10.1007/s10973-024-13584-9https://dspace.lib.cranfield.ac.uk/handle/1826/23083Using composite materials in turbine blades has become common in the wind power industry due to their mechanical properties and low mass. This work aims to investigate the effectiveness of the active infrared thermography technique as a non-destructive inspection tool to identify defects in composite material structures of turbine blades. Experiments were carried out by heating the sample and capturing thermographic images using a thermal camera in four different scenarios, changing the heating strategy. Such a preliminary experiments are prodromic to build, in future, the so-called optimal experiment design for thermal property estimation. The experimental results using two heaters arranged symmetrically on the sample detected the presence of the defect through temperature curves extracted from thermal images, where temperature asymmetries of 25% between the regions with and without defect occurred. Moreover, when only a larger heater was used in transmission mode, the defect was detected based on differences between normalized excess temperatures on the side with and without the defect in the order of 20%. Additionally, numerical simulations were carried out to present solutions for improving defect detection. It was demonstrated that active infrared thermography is an efficient technique for detecting flaws in composite material structures of turbine blades. This research contributes to advancing knowledge in inspecting composite materials.pp. xx-xxenAttribution 4.0 Internationalhttp://creativecommons.org/licenses/by/4.0/CompositeTurbine bladesDefectThermographyThermophysical propertiesHeat transfer3403 Macromolecular and Materials Chemistry34 Chemical Sciences7 Affordable and Clean EnergyPhysical ChemistryArticle1588-2926554015ahead-of-printahead-of-print