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Is stress concentration relevant for nanocrystalline metals?
Sandeep Kumar
, Xiaoyan Li
,
Aman Haque
, Huajian Gao
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
78
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Scopus citations
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Keyphrases
Applied Strain
14%
Average Grain Size
14%
Classical Fracture Mechanics
14%
Concentration Gradient
14%
Dislocation
14%
Downsampling
14%
Downscaling
14%
Ductile Materials
14%
Electron Diffraction Pattern
14%
Grain Boundary Diffusion
14%
Grain Rotation
14%
In Situ
14%
Molecular Dynamics Simulation
14%
Notch Tip
57%
Possible Mechanisms
14%
Severe Stress
14%
Strain Gradient
14%
Stress Concentration
100%
Stress-strain
14%
Switching Process
14%
Transmission Electron Microscope
14%
Uniaxial Tension Test
14%
Material Science
Aluminum
14%
Diffraction Pattern
14%
Ductile Material
14%
Electron Diffraction
14%
Fracture Mechanics
14%
Grain Boundary
14%
Grain Size
14%
Homogenization
14%
Nanocrystalline
100%
Strain Gradient Plasticity
14%
Stress Concentration
100%
Tensile Testing
14%
Engineering
Applied Strain
14%
Average Grain Size
14%
Computer Simulation
14%
Concentration Gradient
14%
Critical Role
14%
Electron Diffraction
14%
Fracture Mechanics
14%
Grain Boundary Diffusion
14%
Notch Tip
57%
Single Edge
14%
Strain Gradient
14%
Strain Gradient Plasticity
14%
Stress Concentration
100%