Microstructure evolution and critical stress for twinning in the CrMnFeCoNi high-entropy alloy
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Abstract
At low homologous temperatures (down to cryogenic temperatures), the CrMnFeCoNi high-entropy alloy possesses good combination of strength, work hardening rate (WHR), ductility, and fracture toughness. To improve understanding of the deformation mechanisms responsible for its mechanical properties, tensile tests were performed at liquid nitrogen and room temperature (77 K and 293 K) and interrupted at different strains to quantify the evolution of microstructure by transmission electron microscopy. Dislocation densities, and twin widths, their spacings, and volume fractions were determined. Nanotwins were first observed after true strains of ∼7.4% at 77 K and ∼25% at 293 K; at lower strains, deformation occurs…
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Topics
Keywords
- Materials science
- Crystal twinning
- Microstructure
- Ultimate tensile strength
- Composite material
- Critical resolved shear stress
- Work hardening
- Deformation mechanism
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