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Suspension plasma sprayed ytterbium disilicate coatings: Phase stability and microstructural evolution in extreme environments

Ebenezer B. Owusu, Acacio Rincón Romero, Alex Lynam, Buhao Zhang, Oriol Gavalda‐Diaz, Tanvir Hussain

2024Journal of the European Ceramic Society12 citationsDOIOpen Access PDF

Abstract

Suspension plasma spray (SPS) is a promising technique to deposit coatings with controlled microstructure. In this work, we explored this capability to produce ytterbium disilicate environmental barrier coatings with enhanced performance against steam and molten calcium-magnesium-aluminium-silicate (CMAS) corrosion. Steam exposure tests on the samples using steams with velocities of 1 m/s and 5 m/s at 1350 ᵒC for 96 h revealed that low-velocity steam caused silica volatilisation whereas the high-velocity steam caused both silica volatilisation and material erosion, yet no new cracks formed in the coating. CMAS degradation test for 5 and 240 mins at 1300 ᵒC on the coatings showed that the large aspect ratio of the splats facilitated reaction between CMAS and ytterbium monosilicate to form a dense layer that slowed further CMAS infiltration. These outcomes suggest that SPS has the proclivity to manufacture EBCs with improved resistance to steam and CMAS degradation.

Topics & Concepts

Materials scienceSuspension (topology)YtterbiumComposite materialPhase (matter)PlasmaMineralogyMetallurgyGeologyDopingHomotopyChemistryQuantum mechanicsPhysicsOptoelectronicsPure mathematicsOrganic chemistryMathematicsAdvanced ceramic materials synthesisHigh-Temperature Coating BehaviorsGlass properties and applications
Suspension plasma sprayed ytterbium disilicate coatings: Phase stability and microstructural evolution in extreme environments | Litcius