Elemental specific chemical complexity is known to play a critical role in microstructure
development in single-phase concentrated solid-solution alloys (SP-CSAs), including both …

This study characterizes the microstructural evolution of single-phase complex concentrated
solid-solution alloy (CSA) compositions under heavy ion irradiation with the goal of …

Single-phase concentrated solid solution alloys have attracted wide interest due to their
superior mechanical properties and enhanced radiation tolerance, which make them …

Refractory multiple principal elemental alloys (MPEAs) hold great promise for structural
materials in future nuclear energy systems. Compared to the extensively studied face …

Binary single-phase concentrated solid solution alloys (SPsingle bondCSAs), including Ni
80 Co 20, Ni 80 Fe 20, Ni 80 Cr 20, Ni 80 Pd 20, and Ni 80 Mn 20 (in atomic percentage) …

High-entropy alloys (HEAs) composed of multiple principal elements have the potential to
offer extraordinary radiation resistance. Using NiCoFeCrMn HEA as a model, here we …

We review recent research developments in a special class of multicomponent concentrated
solid solution alloys (CSAs)–of which the recently discovered high entropy alloys (HEAs) are …

High-entropy alloys (HEAs) and some complex alloys exhibit desirable properties and
significant structural stability in harsh environments, including possible applications in …

Multi-principal element alloys (MPEAs) continue to garner interest as structural and plasma-
facing materials due to their structural (phase) stability and increased resistance to radiation …

Materials capable of sustaining high radiation doses at a high temperature are required for
next-generation fission and future fusion energy. To date, however, even the most promising …