Data and example code (for primary damage simulation) in the study of Zhang et al., on the irradiation-induced defect evolution in CrCoNi medium-entropy alloy
Using molecular dynamics simulations, we characterized the generation and evolution of radiation-ind...
Using a recently developed analytical bond-order potential for the complete ternary system, we perfo...
Radiation damage in materials relevant to applications evolves over time scales spanning from the fe...
High- (and medium-) entropy alloys have emerged as potentially suitable structural materials for nuc...
We study order transitions and defect formation in a model high-entropy alloy (CuNiCoFe) under ion i...
The chemical ordering of CoNiCrFeMn and its effect on radiation resistance is analyzed in this study...
This study investigates the evolution of radiation damage in three metals in the low temperature and...
The formation and migration of intrinsic defects in the CrCoFeNi high entropy alloy has been investi...
High Entropy Alloys (HEA) attract attention as possible radiation resistant materials, a feature obs...
Traditional metallic alloys are mixtures of elements in which the atoms of minority species tend to ...
The effects of alloying elements, Cu, Cr and C, on the number of residual point defects (vacancies a...
High-entropy alloys (HEAs) are an intriguing new class of metallic materials due to their unique mec...
Defect evolution under irradiation is investigated in a set of single-phase concentrated solid solut...
This study investigates radiation damage in three metals in the low temperature and high radiant flu...
Understanding the incipient plastic mechanism in metals is critical for their associated mechanical ...
Using molecular dynamics simulations, we characterized the generation and evolution of radiation-ind...
Using a recently developed analytical bond-order potential for the complete ternary system, we perfo...
Radiation damage in materials relevant to applications evolves over time scales spanning from the fe...
High- (and medium-) entropy alloys have emerged as potentially suitable structural materials for nuc...
We study order transitions and defect formation in a model high-entropy alloy (CuNiCoFe) under ion i...
The chemical ordering of CoNiCrFeMn and its effect on radiation resistance is analyzed in this study...
This study investigates the evolution of radiation damage in three metals in the low temperature and...
The formation and migration of intrinsic defects in the CrCoFeNi high entropy alloy has been investi...
High Entropy Alloys (HEA) attract attention as possible radiation resistant materials, a feature obs...
Traditional metallic alloys are mixtures of elements in which the atoms of minority species tend to ...
The effects of alloying elements, Cu, Cr and C, on the number of residual point defects (vacancies a...
High-entropy alloys (HEAs) are an intriguing new class of metallic materials due to their unique mec...
Defect evolution under irradiation is investigated in a set of single-phase concentrated solid solut...
This study investigates radiation damage in three metals in the low temperature and high radiant flu...
Understanding the incipient plastic mechanism in metals is critical for their associated mechanical ...
Using molecular dynamics simulations, we characterized the generation and evolution of radiation-ind...
Using a recently developed analytical bond-order potential for the complete ternary system, we perfo...
Radiation damage in materials relevant to applications evolves over time scales spanning from the fe...
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