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Phase engineering of high‐entropy alloys
High‐entropy alloys (HEAs) are based on five or more principal elements with equal or
nearly equal molar fractions and possess many significant advantages over traditional …
nearly equal molar fractions and possess many significant advantages over traditional …
High-entropy alloys: a critical assessment of their founding principles and future prospects
High-entropy alloys (HEAs) are a relatively new class of materials that have gained
considerable attention from the metallurgical research community over recent years. They …
considerable attention from the metallurgical research community over recent years. They …
Functional properties and promising applications of high entropy alloys
High-entropy alloys are a novel class of complex materials discovered near the center of
phase diagram, and show exceptional performances over the traditional alloys. The ability of …
phase diagram, and show exceptional performances over the traditional alloys. The ability of …
Lattice distortions in the FeCoNiCrMn high entropy alloy studied by theory and experiment
Lattice distortions constitute one of the main features characterizing high entropy alloys.
Local lattice distortions have, however, only rarely been investigated in these multi …
Local lattice distortions have, however, only rarely been investigated in these multi …
Beyond solid solution high‐entropy alloys: tailoring magnetic properties via spinodal decomposition
Since its first emergence in 2004, the high‐entropy alloy (HEA) concept has aimed at
stabilizing single‐or dual‐phase multi‐element solid solutions through high mixing entropy …
stabilizing single‐or dual‐phase multi‐element solid solutions through high mixing entropy …
A novel ultrafine-grained high entropy alloy with excellent combination of mechanical and soft magnetic properties
C Chen, H Zhang, Y Fan, W Zhang, R Wei… - Journal of Magnetism …, 2020 - Elsevier
Abstract An ultrafine-grained FeCoNiCu 0.2 Si 0.2 high entropy alloy (HEA) was designed
and produced via melt-spinning. This HEA has Cu-rich cell-like grain structure with the size …
and produced via melt-spinning. This HEA has Cu-rich cell-like grain structure with the size …
Mechanism of magnetic transition in FeCrCoNi-based high entropy alloys
First-principles alloy theory and Monte-Carlo simulations are performed to investigate the
magnetic properties of FeCrCoNiAl x high entropy alloys. Results show that face-centered …
magnetic properties of FeCrCoNiAl x high entropy alloys. Results show that face-centered …
Phase selection rule for Al-doped CrMnFeCoNi high-entropy alloys from first-principles
Using ab initio alloy theory, we investigate the lattice stability of paramagnetic Al x
CrMnFeCoNi (0≤ x≤ 5) high-entropy alloys considering the competing body-centered …
CrMnFeCoNi (0≤ x≤ 5) high-entropy alloys considering the competing body-centered …
First principles exploration of near-equiatomic NiFeCrCo high entropy alloys
High entropy alloy NiFeCrCo was systematically studied in the range of near-equal atomic
concentrations, ie, 10–40 at.%, by first-principles tools and high throughput calculations …
concentrations, ie, 10–40 at.%, by first-principles tools and high throughput calculations …
Map** the magnetic transition temperatures for medium-and high-entropy alloys
Tailorable magnetic state near room temperature is very promising for several technological,
including magnetocaloric applications. Here using first-principle alloy theory, we determine …
including magnetocaloric applications. Here using first-principle alloy theory, we determine …