The influence of laser specific energy on laser sealing of plasma sprayed yttria partially stabilized zirconia coating

A 2 kW CO2 laser was used to modify the surface of air plasma sprayed (APS) 7.8 wt% yttria partially stabilized zirconia (YPSZ) coatings; the effects of laser specific energy was investigated. The sealed coatings were characterized by SEM, EDS, WDS, XRD and microhardness. It was possible to control the cell size (or well-sintered ‘domain like’ structure), crack width, depth of sealing and depth of concavity by carefully adjusting the specific energy. The microstructure of the sealed coatings was characterized by a cellular structure at all laser parameters studied. Cracks formed under optimum specific energies (1–2 J/mm²) were seen to be shallow and they do not penetrate through the plasma sprayed coating. The sealed coatings have much lower roughness and higher hardness than non-treated coatings indicating the beneficial effect of plasma treatment.

► Successful desired depth of sealing, shallow crack and cell size were obtained by carefully adjusting the laser specific energy. ► Surface hardness of laser sealed coating is more than two times higher than that of plasma sprayed coating. ► Low specific energy is needed for producing coating components with lower roughness. ► Investigated process is feasible for improving the performance of thermal barrier coating.