Strength–ductility synergy at ambient and cryogenic temperatures via Cu-precipitation-tuned stacking fault energy in a Fe–Cr–Ni–Mn–Mo–Cu alloy | Synapse
March 3, 2026
Strength–ductility synergy at ambient and cryogenic temperatures via Cu-precipitation-tuned stacking fault energy in a Fe–Cr–Ni–Mn–Mo–Cu alloy
Key Points
Strength and ductility synergistically improved in the alloy due to Cu precipitation, enhancing performance.
Key metrics include a notable increase in ductility by 25% at cryogenic temperatures compared to ambient conditions.
Observational analysis reveals a unique relationship between stacking fault energy and precipitation in the alloy composition.
Findings highlight promising material behavior at varied temperatures, but may require real-world validation.