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Long-Term Failure Mechanisms of Thermal Barrier Coatings in Heavy-Duty Gas Turbines

Feng Xie, Dingjun Li, Weixu Zhang

2020Coatings19 citationsDOIOpen Access PDF

Abstract

Thermal barrier coatings serve as thermal insulation and antioxidants on the surfaces of hot components. Different from the frequent thermal cycles of aero-engines, a heavy-duty gas turbine experiences few thermal cycles and continuously operates with high-temperature gas over 8000 h. Correspondingly, their failure mechanisms are different. The long-term failure mechanisms of the thermal barrier coatings in heavy-duty gas turbines are much more important. In this work, two long-term failure mechanisms are reviewed, i.e., oxidation and diffusion. It is illustrated that the growth of a uniform mixed oxide layer and element diffusion in thermal barrier coatings are responsible for the changes in mechanical performance and failures. Moreover, the oxidation of bond coat and the interdiffusion of alloy elements can affect the distribution of elements in thermal barrier coatings and then change the phase component. In addition, according to the results, it is suggested that suppressing the growth rate of uniform mixed oxide and oxygen diffusion can further prolong the service life of thermal barrier coatings.

Topics & Concepts

Thermal barrier coatingMaterials scienceOxideGas turbinesCoatingDiffusionThermalThermal diffusivityHeavy dutyComposite materialWork (physics)Diffusion barrierLayer (electronics)MetallurgyThermodynamicsMechanical engineeringEngineeringAutomotive engineeringPhysicsHigh-Temperature Coating BehaviorsCatalytic Processes in Materials Sciencenanoparticles nucleation surface interactions