Non-destructive determination of local damage and material condition in high-performance components

Abstract In modern aircraft engines, a high number of complex high-performance components are employed, which are partly subjected to extreme loading. For instance, the high-pressure turbine blades of the first stage after the combustor are both thermally-mechanically loaded and experience severe corrosive attack. Therefore they are furnished with several protective systems in order to improve the fatigue life and reliability of the high-temperature material blades employed. A ceramic thermal barrier coating insulates the internally and film-cooled blades against the hot gas stream whilst the underlying layer (PtAl, Al, MCrAlY) protects the substrate material against corrosive attack and oxidation. Owing to the low electrical conductivity of the materials employed in the multilayered system of the high-pressure turbine blades with layer thicknesses of 20–150 μm, conventional eddy-current and thermographic technologies are only suitable to a limited extent to non-destructively detect the condition of the i...