Evolution of a diffusion aluminide bond coat for thermal barrier coatings during thermal cycling

During high-temperature exposure, the microstructure of thermal barrier coatings evolves, leading to increased thermal conductivity. We describe the evolution in the thermal properties of a 7 wt.% Y 2 O 3 stabilized ZrO 2 electron beam-physical vapor deposited (EB-PVD) thermal barrier coating with t

The cast wires were used as evaporation sources for ion-vapour deposition followed by diffusion heat treatments to form nickel aluminide coatings. In order to examine the oxidation resistance of these coatings at elevated temperatures, thermal cyclic oxidation experiments were carried out in air at

AbstractÐA plasma-sprayed thermal barrier coating is observed to spall after oxidation at 11218C from a CoNiCrAlY bond-coated superalloy at the interface between the thermally grown oxide (TGO) and the zirconia thermal barrier coating (TBC). Phase characterization by photostimulated luminescence and

Thermal Barrier Coatings (TBCs) are used extensively to protect components of gas turbines or diesel engines against deterioration at high temperatures, oxidation and corrosion attack by reactive species, especially sulfurs. A TBC can be manufactured by implementing atmospheric plasma spraying (APS)