Thermal cycling behavior of plasma-sprayed yttria-stabilized zirconia thermal barrier coating with La0.8Ba0.2TiO3-δ top layer

In this study, a La0.8Ba0.2TiO3-delta (LBT) upper layer was deposited on an yttria-stabilized zirconia (YSZ) thermal barrier coating (TBC) through atmospheric plasma spraying. The thermal cycling behaviors of the YSZ single-ceramic-layer and LBT-YSZ double-ceramic-layer coatings at 1000 degrees C were investigated through a water quenching method. Moreover, phases, microstructural evolution, and elemental distributions were studied through by X-ray diffraction and scanning electron microscopy-energy-dispersive X-ray spectroscopy. The results showed that the thermal cycling lifetime of the LBT-YSZ coating was 27% higher than that of conventional YSZ coating. The conventional YSZ coating failed after 251 cycles because of the joining of the continuous horizontal and vertical cracks caused by the formation of thermal growth oxides and the bending effect of the single-ceramic-layer structure. The thermal cycling behavior of the LBT-YSZ coating was different from that of the YSZ coating at the edge and center. Although the former was similar to the failure behavior of the YSZ coating, the cracks in the vertical direction were deflected as a result of the bending effect of the double-ceramic-layer structure during quenching. This deflection led to the formation of slope cracks with longer propagation paths and slope spallation zones. The latter showed small-debris spallation on top of the LBT upper layer due to the lower fracture toughness of the LBT, which protected the central coating from the structural damage of the ceramic coating. These two behaviors would either release the thermal stress or increase the crack-propagation energy requirement in the ceramic coating, consequently improving the thermal cycling lifetime of the LBT-YSZ coating. In summary, depositing an LBT upper layer could potentially improve the thermal cycling lifetimes of TBCs.

Automated summary

By studying the thermal cycling behaviors of LBT-YSZ and YSZ coatings at 1000 degrees Celsius, it was found that the thermal cycling lifetime of the LBT-YSZ coating was 27% higher than that of the YSZ coating. The LBT-YSZ coating exhibited different thermal cycling behaviors, with deflection and formation of slope cracks during quenching. Additionally, the lower fracture toughness of the LBT layer protected the central coating.