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Thermal Cycling Behavior of Air Plasma-Sprayed and Low-Pressure Plasma-Sprayed Environmental Barrier Coatings

Dianying Chen, Aaron Pegler, Gopal Dwivedi, Daniel De Wet, Mitchell R. Dorfman

2021Coatings41 citationsDOIOpen Access PDF

Abstract

Yb2Si2O7/Si environmental barrier coatings (EBCs) were produced by air plasma spray (APS) and low-pressure plasma spray (LPPS) processes. The phase composition, microstructure, and bonding strength of APS and LPPS EBCs were investigated. Thermal cycling tests were performed in air and in steam atmosphere respectively at 1316 °C for both APS and LPPS EBCs. There is no coating failure in air atmosphere for both APS and LPPS EBCs after 900 cycles. In contrast, APS EBCs have an average life of 576 cycles in a steam cycling test in 90% H2O + 10% air at 1316 °C while LPPS EBCs survived 1000 cycles without failure. The superior durability of the LPPS EBCs compared to APS EBCs in the same steam cycling environment is attributed to the significantly reduced thermally grown oxide (TGO) growth rate because of the denser and crack-free microstructure, higher bonding strength, and reduced coefficient of thermal expansion (CTE) mismatch (less Yb2SiO5 phase) in the LPPS Yb2Si2O7/Si EBCs.

Topics & Concepts

Temperature cyclingMaterials scienceMicrostructureThermal barrier coatingThermal expansionDurabilityCoatingComposite materialAccelerated agingPlasmaCyclingPhase (matter)Thermal sprayingOxideMetallurgyThermalChemistryThermodynamicsQuantum mechanicsArchaeologyPhysicsOrganic chemistryHistoryAdvanced ceramic materials synthesisHigh-Temperature Coating BehaviorsMetal and Thin Film Mechanics
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