Degradation Mechanisms of an Advanced Jet Engine Service-Retired TBC Component

Abstract

Current use of {TBCs} is subjected to premature spallation failure mainly due to the formation of thermally grown oxides {(TGOs).} Although extensive research has been carried out to gain better understanding of the thermo - mechanical and -chemical characteristics of {TBCs,} laboratory-scale studies and simulation tests are often carried out in conditions significantly differed from the complex and extreme environment typically of a modern gas-turbine engine, thus, failed to truly model service conditions. In particular, the difference in oxygen partial pressure and the effects of contaminants present in the engine compartment have often been neglected. In this respect, an investigation is carried out to study the in-service degradation of an {EB-PVD} {TBC} coated nozzle-guide vane. Several modes of degradation were observed due to three factors: 1) presence of residual stresses induced by the thermal-expansion mismatches, 2) evolution of bond coat microstructure and subsequent formation of oxide spinels, 3) deposition of {CMAS} on the surface of {TBC.}