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Mechanics of superplastic deformations at atomic scale
N. Chandra
Research output
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Contribution to journal
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Article
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peer-review
4
Scopus citations
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Dive into the research topics of 'Mechanics of superplastic deformations at atomic scale'. Together they form a unique fingerprint.
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Keyphrases
Atomic Scale
100%
Superplastic Deformation
100%
Grain Boundary Sliding
100%
Atomistic Simulation
40%
Grain Boundary
40%
Equilibrium Configuration
40%
Material Behavior
20%
Continuum Mechanics
20%
Applied Force
20%
Macroscopic Scale
20%
Impurities
20%
Hierarchical Level
20%
Dislocation
20%
Mesoscopic
20%
Large Strain
20%
Grain Boundary Energy
20%
Embedded Atom Method
20%
Molecular Statics
20%
Superplasticity
20%
Interatomic Potential
20%
Static Calculation
20%
Grain Boundary Structure
20%
Sliding Process
20%
Global Property
20%
Macro Level
20%
Crystal Defects
20%
Force Level
20%
Process Boundary
20%
Grain Interfaces
20%
Energy Considerations
20%
Suitable Scale
20%
Scale-span
20%
Engineering
Superplastic Deformation
100%
Grain Boundary Sliding
100%
Energy Engineering
80%
Grain Boundary
80%
Atomistic Simulation
40%
Equilibrium Configuration
40%
Defects
20%
Continuum Mechanics
20%
Spatial Scale
20%
Length Scale
20%
Nanometre
20%
Applied Force
20%
Macroscopic Scale
20%
Interatomic Potential
20%
Molecular Static
20%
Global Property
20%
Macro Level
20%
Force Level
20%
Material Science
Grain Boundary Sliding
100%
Grain Boundary
80%
Continuum Mechanics
20%
Crystalline Material
20%
Aluminum
20%
Superplasticity
20%