Experimental and theoretical study of tracer diffusion in a series of (CoCrFeMn)100-xNix alloys
Kottke Josua, Utt Daniel, Laurent-Brocq Mathilde, Fareed Adnan, Gaertner Daniel, Perrière Loïc, Rogal Łukasz, Stukowski Alexander, Albe Karsten, Divinski Sergiy V, Wilde Gerhard
Forschungsartikel (Zeitschrift) | Peer reviewedZusammenfassung
Tracer diffusion of all constituting elements is studied at various temperatures in a series of (CoCrFeMn)100−xNix alloys with compositions ranging from pure Ni to the equiatomic CoCrFeMnNi high-entropy alloy. At a given homologous temperature, the measured tracer diffusion coefficients change non-monotonically along the transition from pure Ni to the concentrated alloys and finally to the equiatomic CoCrFeMnNi alloy. This is explained by atomistic Monte-Carlo simulations based on a modified embedded-atom potentials, which reveal that local heterogeneities of the atomic configurations around a vacancy cause correlation effects and induce significant deviations from predictions of the random alloy model.
Details zur Publikation
Autor*innen der Universität Münster
| Divinskyi, Sergii | Professur für Materialphysik (Prof. Wilde) |
| Fareed, Adnan | Professur für Materialphysik (Prof. Wilde) |
| Gaertner, Daniel | Professur für Materialphysik (Prof. Wilde) |
| Kottke, Josua | Professur für Materialphysik (Prof. Wilde) |
| Wilde, Gerhard | Professur für Materialphysik (Prof. Wilde) |
Projekte, aus denen die Publikation entstanden ist
Laufzeit: 01.08.2017 - 31.07.2020 | 1. Förderperiode Gefördert durch: DFG - Schwerpunktprogramm Art des Projekts: Teilprojekt in DFG-Verbund koordiniert außerhalb der Universität Münster |