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Graphene-Induced Surface Stiffening of Copper Studied by Nanoindentation
Jad Yaacoub
, Mitisha Surana
, Ganesh Ananthakrishnan
,
Harley Johnson
,
Sameh Tawfick
Mechanical Science and Engineering
Materials Science and Engineering
Materials Research Lab
National Center for Supercomputing Applications (NCSA)
Beckman Institute for Advanced Science and Technology
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Keyphrases
Graphene
100%
Nanoindentation
100%
Indentation
33%
Free Region
22%
Finite Element Analysis
11%
Elastic Modulus
11%
Chemical Vapor Deposition
11%
Atomic Layers
11%
Contact Area
11%
Mechanical Behavior
11%
Induced Stress
11%
Elastic Energy
11%
Metal Substrate
11%
Copper Foil
11%
In-plane Stretching
11%
Spatially Distributed
11%
Local Plasticity
11%
Indentation Depth
11%
TEM Sample
11%
Distributed Plasticity
11%
Cross-sectional TEM
11%
Plastic Behavior
11%
Displacement Model
11%
Normal Compression
11%
Stress Redistribution
11%
Free-standing Membrane
11%
Indentation Model
11%
Oliver-Pharr Method
11%
Energy Combining
11%
Material Science
Graphene
100%
Nanoindentation
100%
Indentation
55%
Surface (Surface Science)
33%
Finite Element Method
11%
Elastic Moduli
11%
Chemical Vapor Deposition
11%
Contact Area
11%