… interact in alloys and how their atomic-level heterogeneity affects defectevolution in a … a dilute alloy to a more concentrated solid-solutionalloy with an Al concentration over ten percent. …
… As a result, the intrinsic disorder has a profound influence on energy dissipation pathways and defectevolution when these CSAs are subjected to energetic particle irradiation. …
… It has been shown that the type of alloying … alloys revealed that addition of Fe can delay defectevolution more effectively under room temperature irradiation when compared to alloying …
… electronic and atomic effects to defectevolution and microstructure progression. This article aims to highlight unique defect properties and microstructural evolution in SP-CSAs under …
… energy dissipation and defectevolution in concentrated solid solutionalloys. Nat. Commun. … defectevolution and hardening in Ni–Fe solid solutionalloys. Acta Mater. 121, 365 (2016). …
… Single-phase concentrated solid solutionalloys are random solid solutions on simple underlying fcc, bodycentered cubic (bcc), or hexagonal close-packed (hcp) crystal structures with …
… migration behavior and higher defect recombination rate [[1], [2], [… solutionalloys (SP-CSAs) irradiated at high temperature are still scarce. The term SP-CSAs is referred to solutionalloys …
… Single-phase concentrated solid-solutionalloys (SP-CSAs) have shown unique chemical … , and their defectevolution is expected to be different from conventional dilute alloys. Single …
… Using molecular dynamics simulations, we elucidate irradiation-induced point defectevolution in fcc pure Ni, Ni 0.5 Fe 0.5 , and Ni 0.8 Cr 0.2 solid solutionalloys. We find that irradiation…