Keyphrases
Force Networks
75%
Nematic Liquid Crystal
64%
Granular Materials
52%
Dewetting
50%
Linear Stability Analysis
42%
Intruder
41%
Granular Systems
39%
Contact Line
36%
Lubrication Approximation
35%
Two Dimensional
34%
Particulate Systems
33%
Numerical Simulation
33%
Thin Fluid Films
30%
Instability Mechanism
30%
Liquid Phase
26%
Thin Film Flow
26%
Fully Nonlinear
26%
Pattern Formation
25%
Film Thickness
24%
Inclination Angle
24%
Non-linear Time
24%
Time-dependent Simulation
24%
Free Surface
22%
Granular Media
22%
Spatial Dimension
22%
Thin Liquid Film
21%
Inclined Plane
21%
Solid Substrate
21%
Friction
20%
Liquid Crystal Layer
20%
Long Waves
20%
Directed Self-assembly
20%
Rivulet
19%
Liquid Metal
19%
Discrete Element Simulation
19%
Contact Line Instability
18%
Thermally Conductive
18%
Plateau-Rayleigh Instability
18%
Wetting Fluid
17%
Persistent Homology
17%
Three-dimensional (3D)
16%
Conductive Substrate
16%
Velocity Profile
16%
Granular Impact
16%
Hele-Shaw Flows
16%
Moving Contact Line
16%
Metal Filament
16%
Governing Equation
16%
Membrane Filter
16%
Surface Tension
16%
Engineering
Thin Films
100%
Contact Line
66%
Nanoscale
51%
Two Dimensional
51%
Liquid Crystal
44%
Fluid Film
41%
Computer Simulation
41%
Linear Stability Analysis
35%
Length Scale
34%
Free Surface
30%
Nanoparticle
30%
Instability Mechanism
28%
Liquid Films
27%
Experimental Result
25%
Liquid Phase
24%
Tension Surface
22%
Conductive
21%
Pulsed Laser
21%
Liquid Metal
20%
Discrete Element
20%
Membrane Filter
20%
Inclination Angle
20%
Inclined Plane
19%
Fluid Viscosity
19%
Volume of Fluid Method
17%
Disjoining Pressure
17%
Driven Flow
17%
Good Agreement
16%
Spatial Dimension
16%
Transients
15%
Flow Rate
15%
Navier-Stokes Equation
14%
Partial Differential Equation
14%
Stick-Slip
14%
Newtonian Fluid
14%
Nanosecond
13%
Liquid Drop
13%
Single Bubble
12%
Floors
12%
Shear Thinning
12%
Energy Dissipation
12%
Wave Model
12%
Ambient Pressure
12%
Capillarity
12%
Pressure Drop
11%
Material Parameter
11%
Direct Numerical Simulation
10%
One Dimensional
10%
Constant Volume
10%
Hydrodynamics
10%