Engineering
Friction Coefficient
100%
Fluid
100%
Computer Simulation
100%
Nonequilibrium
100%
Prediction
100%
Nanopore
100%
Dynamic Method
66%
Water
66%
Carbon Nanotube
66%
Diameter Tube
33%
Statistical Error
33%
Graphene
33%
Slip Velocity
33%
Velocity Profile
33%
Driving Force
33%
Computational Time
33%
Friction
33%
Length (L)
33%
Nanotube
33%
Surface
33%
Data Show
33%
INIS
prediction
100%
simulation
100%
slip
100%
fluids
100%
equilibrium
100%
molecular dynamics method
88%
length
77%
friction factor
33%
increasing
22%
water
22%
carbon nanotubes
22%
friction
11%
surfaces
11%
width
11%
nanotubes
11%
comparative evaluations
11%
tubes
11%
graphene
11%
velocity
11%
errors
11%
data
11%
slip velocity
11%
Material Science
Molecular Simulation
100%
Friction
100%
Fluid
100%
Nanopore
100%
Water
50%
Velocity
50%
Carbon Nanotube
50%
Graphene
25%
Analytical Method
25%
Dynamic Analysis
25%
Surface
25%
Nanotube
25%
Keyphrases
Slip Length
100%
Fluid Slip
100%
Cylindrical Nanopore
100%
Equilibrium Molecular Dynamics
42%
Equilibrium Molecular Dynamics Simulation
28%
Non-equilibrium Molecular Dynamics
28%
Planar Channel
14%
Curvature Dependence
14%
Cylindrical System
14%
Channel Surface
14%
External Driving Forces
14%
Velocity Slip
14%
Length Dependency
14%