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Mechanisms of Enhanced Thermal Durability in Porosity-Controlled Multilayer Thermal Barrier Coatings

Janghyeok Pyeon, Kyung-Moo Kang, Bong‐Gu Kim, Jeonghyeon Lee, Sohee Baek, SeungCheol Yang, Yeon‐Gil Jung, Dowon Song, Byung-Il Yang

2025Materials7 citationsDOIOpen Access PDF

Abstract

This study investigates the enhancement of thermal durability in multilayer yttria-stabilized zirconia (YSZ) thermal barrier coatings (TBC) with porosity-controlled structures. Conventional single-layer YSZ and multilayer TBCs with dense and porous layers were fabricated by air plasma spraying and the TBC specimens were subjected to furnace cyclic testing. The single-layer TBC suffered from catastrophic delamination under cyclic thermal loading, driven by the mismatch in thermal expansion, while the multilayer TBCs exhibited a significant increase in thermal durability, by up to 50%. The relevant delamination mechanism was suggested with microstructural analysis, showing that the multilayer structure effectively relieved residual stresses by forming horizontal cracks, thereby mitigating crack propagation. This study emphasizes that the multilayer design in TBC with controlled porosity significantly enhances thermal durability, improving the operational lifespan of gas turbine hot components.

Topics & Concepts

DurabilityMaterials scienceThermal barrier coatingComposite materialDelamination (geology)Yttria-stabilized zirconiaPorosityThermalCubic zirconiaThermal expansionLayer (electronics)Temperature cyclingCeramicBiologyMeteorologySubductionPaleontologyPhysicsTectonicsHigh-Temperature Coating BehaviorsNuclear Materials and PropertiesParticle Dynamics in Fluid Flows