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Irradiation-induced damage evolution in concentrated Ni-based alloys
Gihan Velişa
, Mohammad W. Ullah
, Haizhou Xue
, Ke Jin
, Miguel L. Crespillo
, Hongbin Bei
, William J. Weber
, Yanwen Zhang
Research output
:
Contribution to journal
›
Article
›
peer-review
58
Scopus citations
Overview
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Keyphrases
Damage Evolution
100%
Radiation Damage
100%
Solid Solution Alloy
100%
Ni-based Alloy
100%
Chemical Complexity
100%
Defect Evolution
66%
Radiation Tolerance
66%
Ni80Fe20
66%
Molecular Dynamics Simulation
33%
Alloying Effect
33%
Microstructure Evolution
33%
Room Temperature
33%
Defect Clusters
33%
Radiation Performance
33%
Mn Ions
33%
Controlling Factors
33%
Recombination
33%
Defect Dynamics
33%
Defect Migration
33%
Intrinsic Attributes
33%
Low Fluence
33%
Defect Production
33%
Defect Microstructures
33%
Dynamic Evolution
33%
Alloying Elements
33%
Structural Alloys
33%
Energy Landscape
33%
Chemical Effect
33%
Rutherford Backscattering Spectrometry
33%
Complex Energy
33%
Antiferromagnetic Interaction
33%
Engineering
Induced Damage
100%
Solid Solution
100%
Damage Evolution
100%
Alloying
33%
Alloying Element
33%
Channelling
33%
Room Temperature
33%
Early Stage
33%
Microstructure Evolution
33%
Chemical Shift Anisotropy
33%
Radiation Performance
33%
Material Science
Nickel Alloy
100%
Solid Solution
100%
Damage Evolution
100%
Alloying
66%
Energy Landscape
33%
Microstructure Evolution
33%