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Failure mechanism transition from fatigue spallation to oxidative wear in age-hardened Ni3x(FeCr)yCo(x+y)/2 high-entropy alloys produced by laser directed energy deposition at elevated temperature

Hao Liu, Bin Wang, Dali Li, Binxin Dong, Jian Liu, Peijian Chen, Yanhua Bian, Qiansheng Xu, Yu Fan, Xiuli He

2026Engineering Failure Analysis15 citationsDOI

Topics & Concepts

Materials scienceSpallationIndentation hardnessLaves phaseDeposition (geology)MetallurgyTribologyPrecipitationPhase (matter)DissolutionPulsed laser depositionComposite materialNanoscopic scaleCarbideTitanium alloyHot isostatic pressingLaserVolume fractionOxideBerylliumPhase transitionVanadiumThermal barrier coatingHigh Entropy Alloys StudiesHigh-Temperature Coating BehaviorsAdditive Manufacturing Materials and Processes
Failure mechanism transition from fatigue spallation to oxidative wear in age-hardened Ni3x(FeCr)yCo(x+y)/2 high-entropy alloys produced by laser directed energy deposition at elevated temperature | Litcius