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Discovery of Ni activated sintering of MoNbTaW predicted by a computed grain boundary diagram

Sashank Shivakumar, Keqi Song, Chunyang Wang, Tianjiao Lei, Huolin L. Xin, Timothy J. Rupert, Jian Luo

2023Scripta Materialia14 citationsDOIOpen Access PDF

Abstract

Activated sintering of refractory metals represents a classical phenomenon in powder metallurgy. This study discovers that Ni addition can enhance sintering of MoNbTaW both above and below the bulk solidus composition at 1800 °C, thereby demonstrating the first example of activated sintering of a high-entropy alloy. To probe the underlying mechanism, experiments reveal complete grain boundary (GB) wetting above the bulk solidus composition, which logically infers the stabilization of a liquid-like interfacial phase (GB complexion) in a prewetting region below the bulk solidus composition. Furthermore, bulk CALPHAD (calculation of phase diagram) methods have been extended to model GBs in Ni-doped MoNbTaW to compute a GB “phase” diagram to forecast high-temperature GB disordering in the prewetting region and rationalize the observed Ni-activated sintering of MoNbTaW. Only weak GB segregation of Ni is found in furnace-cooled specimens, which suggests GB “drying” during cooling, consistent with the observed nanoscale precipitates along GBs.

Topics & Concepts

SolidusMaterials scienceCALPHADSinteringPhase diagramGrain boundaryWettingMetallurgyPowder metallurgyThermodynamicsPhase boundaryAlloyPhase (matter)MicrostructureComposite materialChemistryPhysicsOrganic chemistryHigh Entropy Alloys StudiesHigh-Temperature Coating BehaviorsAdvanced materials and composites