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Chemical trends favoring interstitial cluster formation in bcc high-entropy alloys from first-principles calculations

Pedro P. P. O. Borges, Robert O. Ritchie, Mark Asta

2025Acta Materialia13 citationsDOIOpen Access PDF

Abstract

Achieving high strength and ductility is a common goal in structural alloy design. Body-centered cubic high-entropy alloys (HEAs) commonly highlight the conflict between these properties, with stronger alloys being brittle and vice versa. Recent reports suggest interstitial solutes can be used to overcome this trade-off, in some cases providing both strength and ductility enhancements. This effect has been correlated with interstitial cluster formation, although the conditions favoring their formation remain incompletely understood. Using first-principles calculations of solution energies and diffusivities, we provide insights into thermodynamic and kinetic factors favoring interstitial solute clusters. Among C, N and O solutes, O interstitials display most desirable diffusion kinetics. Further, the results highlight the importance of local composition fluctuations in the HEAs to enable the formation of clusters of appreciable size. The results are explained in terms of bonding and distortion trends across solutes and HEA compositions to provide guidelines for alloy design.

Topics & Concepts

Materials scienceCluster (spacecraft)High entropy alloysThermodynamicsChemical physicsStatistical physicsMetallurgyAlloyPhysicsComputer scienceProgramming languageHigh Entropy Alloys StudiesHigh-Temperature Coating BehaviorsAdditive Manufacturing Materials and Processes