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Slip transmission in bcc FeCr polycrystal
Luca Patriarca
, Wael Abuzaid
,
Huseyin Sehitoglu
, Hans J. Maier
Mechanical Science and Engineering
Research output
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peer-review
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Keyphrases
Fe-Cr
100%
Polycrystal
100%
Residual Burgers Vector
100%
Slip Transmission
100%
Grain Boundary
60%
Strain Field
40%
Strain Measurement
40%
Dislocation Reaction
40%
Vector Magnitude
40%
Slip Dislocation
40%
High-resolution
20%
Lattice Spacing
20%
Microstructural
20%
Measurement Techniques
20%
Low Strain
20%
Electron Backscatter Diffraction
20%
Local Strain
20%
BCC Alloys
20%
Deformation Response
20%
Strain Change
20%
Local Variation
20%
Material Softening
20%
Grain Orientation
20%
Digital Image Correlation Technique
20%
High Strain
20%
Grain Material
20%
Model Research
20%
Grain Boundary Resistance
20%
Strain Heterogeneity
20%
Job Strain
20%
Vector Approach
20%
Single Slip
20%
Dislocation-grain Boundary Interactions
20%
Grain Interfaces
20%
Fatigue Damage Initiation
20%
Grain Boundary Hardening
20%
Engineering
Strain Field
100%
Polycrystal
100%
High Resolution
50%
Local Strain
50%
Fatigue Damage
50%
Deformation Response
50%
Damage Initiation
50%
Digital Image Correlation Technique
50%
Grain Orientation
50%
Material Science
Polycrystal
100%
Grain Boundary
100%
Burger Vector
83%
Strain Measurement
33%
Electron Backscatter Diffraction
16%
Fatigue Damage
16%