Microstructure evolution during room-temperature tensile deformation and TRIP effect-dominated strength-ductility synergy mechanism of (Fe40Mn20Co20Cr15Si5)100-Cu dual phase high entropy alloy prepared by friction stir Cu alloying
Key Points
Microstructure changes during tensile deformation impact strength and ductility due to the TRIP effect.
The observed synergy between strength and ductility suggests a unique advantage in material properties.
Analysis utilized friction stir processing to create a dual-phase high entropy alloy, enhancing performance substantially.
Understanding these mechanisms could lead to the development of superior alloys for various applications.
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Microstructure evolution during room-temperature tensile deformation and TRIP effect-dominated strength-ductility synergy mechanism of (Fe40Mn20Co20Cr15Si5)100-Cu dual phase high entropy alloy prepared by friction stir Cu alloying | Synapse