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Synergetic effect of Si addition on mechanical properties in face-centered-cubic high entropy alloys: a first-principles study

Tomohito Tsuru, Ivan Lobzenko, Daixiu Wei

2021Modelling and Simulation in Materials Science and Engineering19 citationsDOI

Abstract

Abstract High-entropy alloys (HEA) have been receiving increased attention for their excellent mechanical properties. Our recent study revealed that Si-doped face-centered cubic (FCC) HEAs have great potential to improve both strength and ductility. Here, we carried out first-principles calculations in cooperation with Monte Carlo simulation and structural factor analysis to explore the effect of Si addition on the macroscopic mechanical properties. As a result, Si addition increased the local lattice distortion and the stacking fault energy (SFE). Furthermore, the short-range order formation in Si-doped alloy caused highly fluctuated SFE. Thus, the heterogeneous solid solution states in which low and high stacking fault regions are distributed into the matrix were nucleated. This unique feature in Si-doped FCC-HEA induces ultrafine twin formation in Si-doped alloys, which can be a dominant factor in improving both strength and ductility.

Topics & Concepts

Materials scienceHigh entropy alloysStacking-fault energyAlloyCubic crystal systemDopingStacking faultDuctility (Earth science)StackingCondensed matter physicsDislocationMetallurgyComposite materialCreepNuclear magnetic resonancePhysicsOptoelectronicsHigh Entropy Alloys StudiesHigh-Temperature Coating BehaviorsChalcogenide Semiconductor Thin Films
Synergetic effect of Si addition on mechanical properties in face-centered-cubic high entropy alloys: a first-principles study | Litcius