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Achieving excellent mechanical properties in a dual-phase FeCrNi medium entropy alloy through athermal transformations and dislocation structures

Xuguang Dong, Jinsong Liu, Jinsong Liu, Lu Zhang, Zhaohui Hu, Jiwen Liu, Jiwen Liu

2023Journal of Materials Research and Technology15 citationsDOIOpen Access PDF

Abstract

In this study, a face-centered cubic (FCC) + body-centered cubic (BCC) dual-phase Fe40Cr40Ni20 (at.%) medium-entropy alloy (MEA) with outstanding mechanical properties was developed. Deformation and strain-hardening mechanisms of the MEA were investigated using a transmission electron microscope. In the FCC phase, dislocation slip was the main deformation mechanism, and twinning appeared at the high-stress stage. Dislocation tangle induced by multi-slip positively contributed to the improvement of strain hardening ability. In the BCC phase, deformation mainly depended on dislocation slip, stress-induced martensitic transformation, and twinning. ω particles resulting from martensitic transformation strongly inhibited dislocation motion. Deformation twins and dislocation structures enhanced the strain-hardening ability by reducing the dislocation mean free path. The BCC/FCC interface also contributed to strain hardening ability by hindering the dislocation movement. The combined action of multiple mechanisms led to the high strain-hardening rate of the MEA.

Topics & Concepts

Materials scienceCrystal twinningDislocationHardening (computing)Slip (aerodynamics)AlloyHigh entropy alloysTransmission electron microscopyCrystallographyStrain hardening exponentDeformation mechanismDiffusionless transformationMartensiteComposite materialCondensed matter physicsThermodynamicsMicrostructureNanotechnologyChemistryLayer (electronics)PhysicsHigh Entropy Alloys StudiesHigh-Temperature Coating BehaviorsAdditive Manufacturing Materials and Processes
Achieving excellent mechanical properties in a dual-phase FeCrNi medium entropy alloy through athermal transformations and dislocation structures | Litcius