Litcius/Paper detail

An Overview of Metallic Abradable Coatings in Gas Turbine Engines

Kaue Bertuol, Bruno Edu Arendarchuck, Pantcho Stoyanov

2025Coatings6 citationsDOIOpen Access PDF

Abstract

This review presents a comprehensive overview of metallic abradable coatings and the advanced testing methodologies used to evaluate their performance in gas turbine engines. Abradable materials are engineered to act as sacrificial coatings, enabling minimal blade tip wear while maintaining tight clearances between rotating blades and stationary components. Such functionality is critical in aerospace applications, where engines operate at high rotational speeds and across wide temperature ranges. The review examines the principal factors governing the design and selection of metallic-based abradable coatings, including material composition, thermal stability, and microstructural tailoring through the addition of phase modifiers, porosity formers, and solid lubricants. The performance of various metallic matrix materials is also discussed concerning their operational temperature ranges and wear characteristics. Particular attention is given to abradability evaluation methods, emphasizing the need to replicate engine-representative conditions to capture blade–coating interactions, frictional behavior, and wear mechanisms. This review consolidates advances in material compositions, microstructural engineering, and experimental testing, integrating perspectives from materials science, tribology, and methodology to guide the development of next-generation turbine coatings. It specifically addresses the lack of a unified review linking material design, thermal spray processes, and performance evaluation by summarizing key compositions, microstructures, and testing methods.

Topics & Concepts

Materials scienceAerospaceTurbineMaterial selectionMechanical engineeringThermal barrier coatingTurbine bladeGas turbinesThermalPorosityDry lubricantPhase (matter)Material propertiesSuperalloyCharacterization (materials science)Thermal fatigueMetallurgyProcess engineeringCoatingComposite materialForensic engineeringHigh-Temperature Coating BehaviorsAdvanced materials and compositesMaterial Properties and Applications