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Phase evolution during ion-beam mixing of Ag-Cu
L. C. Wei
,
R. S. Averback
Materials Science and Engineering
Materials Research Lab
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peer-review
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Keyphrases
Irradiation
100%
Ion Beam Mixing
100%
Phase Evolution
100%
Ag-Cu
100%
Two-terminal
66%
Terminal Phase
66%
Equiatomic
66%
Ion Flux
66%
Low Temperature
33%
High Temperature
33%
Room Temperature
33%
Steady State
33%
Elevated Temperature
33%
As-deposited
33%
Diffraction
33%
Demixing
33%
Intermediate Temperature
33%
Electrical Conductivity
33%
Thermally Activated Processes
33%
Phase Formation
33%
Diffusion Model
33%
Enhanced Solubility
33%
Alloying System
33%
Backscattering Spectrometry
33%
Kr Ion Irradiation
33%
Cascade Mixing
33%
Direct Irradiation
33%
K-mixing
33%
Homogeneous Phase
33%
Decomposition Reaction
33%
Cu-Ag Alloy
33%
Engineering
Ion Beam Mixing
100%
Low-Temperature
50%
Ray Diffraction
50%
Room Temperature
50%
Experimental Result
50%
Elevated Temperature
50%
Diffusion Model
50%
Phase Formation
50%
Intermediate Temperature
50%
Alloy System
50%
Material Science
Ion Beam Mixing
100%
Electrical Resistivity
50%
Chemical Decomposition
50%
Ion Bombardment
50%
Copper Alloy
50%