Litcius/Paper detail

Data-driven electron-diffraction approach reveals local short-range ordering in CrCoNi with ordering effects

Haw-Wen Hsiao, Rui Feng, Haoyang Ni, Ke An, Jonathan D. Poplawsky, Peter K. Liaw, Jian‐Min Zuo

2022Nature Communications90 citationsDOIOpen Access PDF

Abstract

Abstract The exceptional mechanical strength of medium/high-entropy alloys has been attributed to hardening in random solid solutions. Here, we evidence non-random chemical mixing in a CrCoNi alloy, resulting from short-range ordering. A data-mining approach of electron nanodiffraction enabled the study, which is assisted by neutron scattering, atom probe tomography, and diffraction simulation using first-principles theory models. Two samples, one homogenized and one heat-treated, are observed. In both samples, results reveal two types of short-range-order inside nanoclusters that minimize the Cr–Cr nearest neighbors (L1 2 ) or segregate Cr on alternating close-packed planes (L1 1 ). The L1 1 is predominant in the homogenized sample, while the L1 2 formation is promoted by heat-treatment, with the latter being accompanied by a dramatic change in dislocation-slip behavior. These findings uncover short-range order and the resulted chemical heterogeneities behind the mechanical strength in CrCoNi, providing general opportunities for atomistic-structure study in concentrated alloys for the design of strong and ductile materials.

Topics & Concepts

NanoclustersShort range orderMaterials scienceNeutron diffractionAlloyDiffractionHardening (computing)Condensed matter physicsDislocationNeutron scatteringScatteringElectronNanotechnologyPhysicsMetallurgyComposite materialOpticsLayer (electronics)Quantum mechanicsHigh Entropy Alloys StudiesAdvanced Materials Characterization TechniquesHigh-Temperature Coating Behaviors