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Discovery of Guinier-Preston zone hardening in refractory nitride ceramics

Oleksandr Pshyk, X.G. Li, I. Petrov, Davide G. Sangiovanni, Justinas Pališaitis, Lars Hultman, Grzegorz Greczyński

2023Acta Materialia10 citationsDOIOpen Access PDF

Abstract

Traditional age hardening mechanisms in refractory ceramics consist of precipitation of fine particles. These processes are vital for widespread wear-resistant coating applications. Here, we report novel Guinier-Preston zone hardening, previously only known to operate in soft light-metal alloys, taking place in refractory ceramics like multicomponent nitrides. The added superhardening, discovered in thin films of Ti-Al-W-N upon high temperature annealing, comes from the formation of atomic-plane-thick W disks populating {111} planes of the cubic matrix, as observed by atomically resolved high resolution scanning transmission electron microscopy and corroborated by ab initio calculations and molecular dynamics simulations. Guinier-Preston zone hardening concurrent with spinodal decomposition is projected to exist in a range of other ceramic solid solutions and thus provides a new approach for the development of advanced materials with outstanding mechanical properties and higher operational temperature range for the future demanding applications.

Topics & Concepts

Materials scienceCeramicSpinodal decompositionHardening (computing)Transmission electron microscopyCeramic matrix compositePrecipitation hardeningRefractory metalsAnnealing (glass)NitrideNitridingComposite materialMicrostructureCrystallographyMetallurgyNanotechnologyPhase (matter)ChemistryLayer (electronics)Organic chemistryMetal and Thin Film MechanicsBoron and Carbon Nanomaterials ResearchAdvanced materials and composites
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