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Alloying effect on the order–disorder transformation in tetragonal FeNi

Liyun Tian, Oliver Gutfleisch, Olle Eriksson, Levente Vitos

2021Scientific Reports21 citationsDOIOpen Access PDF

Abstract

Tetragonal ([Formula: see text]) FeNi is a promising material for high-performance rare-earth-free permanent magnets. Pure tetragonal FeNi is very difficult to synthesize due to its low chemical order-disorder transition temperature ([Formula: see text] K), and thus one must consider alternative non-equilibrium processing routes and alloy design strategies that make the formation of tetragonal FeNi feasible. In this paper, we investigate by density functional theory as implemented in the exact muffin-tin orbitals method whether alloying FeNi with a suitable element can have a positive impact on the phase formation and ordering properties while largely maintaining its attractive intrinsic magnetic properties. We find that small amount of non-magnetic (Al and Ti) or magnetic (Cr and Co) elements increase the order-disorder transition temperature. Adding Mo to the Co-doped system further enhances the ordering temperature while the Curie temperature is decreased only by a few degrees. Our results show that alloying is a viable route to stabilizing the ordered tetragonal phase of FeNi.

Topics & Concepts

Tetragonal crystal systemOrder (exchange)Materials sciencePhase (matter)Condensed matter physicsAlgorithmCurie temperatureAlloyPhase transitionThermodynamicsMachine learningComputer scienceFerromagnetismPhysicsMetallurgyQuantum mechanicsEconomicsFinanceMagnetic Properties of AlloysHydrogen Storage and MaterialsMagnetic properties of thin films
Alloying effect on the order–disorder transformation in tetragonal FeNi | Litcius