Thermophysical properties of complex rare-earth zirconate ceramic for thermal barrier coatings

Two complex rare-earth zirconates (La_0.4Sm_0.5Yb _0.1)₂ (Zr_0.7Ce_0.4)₂O _7.4 and (Sr_0.1La_0.3Sm_0.5Yb _0.1)₂(Zr_0.7Ce_0.4)₂O _7.3 for thermal barrier coatings (TBCs) were synthesized by the coprecipitation method. Their phase composition, microstructure, and thermophysical properties were investigated. X-ray diffractometry results revealed that single-phase (La_0.4Sm_0.5Yb _0.1)₂(Zr_0.7Ce_0.4)₂O _7.4 and (Sr_0.1La_0.3Sm_0.5Yb _0.1)₂(Zr_0.7Ce_0.4)₂O _7.3 with pyrochlore structure were prepared, and the scanning electron microscopy results showed that the microstructures of the products were dense and no other phases existed among the grains. With the temperature increasing, the thermal expansion coefficient (CTE) of the ceramics increased, while the thermal conductivity decreased. The results indicated that the CTE of (Sr_0.1La_0.3Sm_0.5Yb_0.1) ₂(Zr_0.7Ce_0.4)₂O_7.3 was slightly higher than that of (La_0.4Sm_0.5Yb _0.1)₂(Zr_0.7Ce_0.4)₂O _7.4 and the thermal conductivity of (Sr_0.1La _0.3Sm_0.5Yb_0.1)₂(Zr _0.7Ce_0.4)₂O_7.3 was lower than that of (La_0.4Sm_0.5Yb_0.1)₂(Zr _0.7Ce_0.4)₂O_7.4. These results imply that the thermophysical properties of (Sr_0.1La_0.3Sm _0.5Yb_0.1)₂(Zr_0.7Ce _0.4)₂O_7.3 are better than that of (La _0.4Sm_0.5Yb_0.1)₂(Zr _0.7Ce_0.4)₂O_7.4 as the material for the ceramic layer in the TBC system.