???????Study on thermal shock resistance of Sc2O3 and Y2O3 co-stabilized ZrO2 thermal barrier coatings

In order to reveal the effect of Sc(2)O(3 )and Y2O3 co-doping system on the thermal shock resistance of ZrO2 thermal barrier coatings, Y2O3 stabilized ZrO2 thermal barrier coatings (YSZ TBCs) and Sc2O3-Y2O3 co-stabilized ZrO(2 )thermal barrier coatings (ScYSZ TBCs) were prepared by atmospheric plasma spraying technology. The surface and cross-section micromorphologies of YSZ ceramic coating and ScYSZ ceramic coatings were compared, and their phase composition before and after heat treatment at 1200 C was analyzed. Whereupon, the thermal shock experiment of the two TBCs at 1100 C was carried out. The results show that the micromorphologies of YSZ ceramic coating and ScYSZ ceramic coating were not much different, but the porosity of the latter was slightly higher. Before heat treatment, the phase composition of both YSZ ceramic coating and ScYSZ ceramic coating was a single T' phase. After heat treatment, the phase composition of YSZ ceramic coating was a mixture of M phase, T phase, and C phase, while that of ScYSZ ceramic coating was still a single T' phase, indicating ScYSZ ceramic coating had better T' phase stability, which could be attributed to the co-doping system of Sc2O3 and Y2O3 facilitated the formation of defect clusters. In the thermal shock experiment, the thermal shock life of YSZ TBCs was 310 times, while that of ScYSZ TBCs was 370 times, indicating the latter had better thermal shock resistance. The difference in thermal shock resistance could be attributed to the different sintering resistance of ceramic coatings and the different growth rates of thermally grown oxide in the two TBCs. Furthermore, the thermal shock failure modes of YSZ TBCs and ScYSZ TBCs were different, the former was delamination, while the latter was delamination and shallow spallation.

Automated summary

In this study, YSZ TBCs and ScYSZ TBCs were prepared by atmospheric plasma spraying technology to investigate the effect of Sc(2)O(3) and Y2O3 co-doping on the thermal shock resistance of ZrO2 thermal barrier coatings. The micromorphologies of the two coatings were compared, and their phase composition before and after heat treatment was analyzed. The thermal shock experiment revealed that ScYSZ TBCs exhibited better thermal shock resistance and longer thermal shock life compared to YSZ TBCs, which could be attributed to the formation of defect clusters facilitated by the co-doping system of Sc2O3 and Y2O3.