Keyphrases
Dome Collapse
50%
Double Impact
50%
Liquid Loading
50%
Non-flat Surface
50%
Gas Permeable
50%
Porous Substrate
50%
Liquid-solid Impact
50%
Shallow Liquid Layers
50%
Water Exit
50%
Viscous Wave
50%
Wagner Theory
50%
Volcanic Domes
50%
Rainfall Infiltration
50%
Stokes Layer
50%
Droplet Impact
50%
Compressible Gas
50%
Air Cushioning
50%
Bubble Entrapment
50%
Saturation Front
50%
Touchdown
50%
Countercurrent Flow
50%
Liquid Layer
50%
Wall Suction
50%
Equilibrium Phase Diagram
50%
Front Evolution
50%
Convex Hull Method
50%
Flash Calculation
50%
Electromechanical Simulation
50%
Rigid Sphere
50%
Double Contact
50%
Gas Entrainment
37%
Electroosmosis
37%
Air Layer
33%
Thermal Diffusion
33%
Gas Compressibility
33%
De-icing System
33%
Magmatic Gases
30%
Rainfall Rate
30%
Blunt Body
25%
Local Asymptotics
25%
Asymptotic Model
25%
Weakly Compressible
25%
Air Compressibility
25%
Impact Phase
25%
Small Time Behavior
25%
Acoustic Forcing
25%
Poiseuille
25%
Surface Acoustic
25%
Gust
25%
Compositional Simulation
25%
Engineering
Liquid Layer
100%
Rainwater
50%
Rainfall Rate
50%
Liquid Loading
50%
Porous Substrate
50%
Snow and Ice Removal
50%
Gas Entrapment
50%
Ternary System
50%
Equilibrium Phase Diagram
50%
Body Shape
50%
Air Cushioning
50%
Gas Compressibility
50%
Compressible Gas
50%
Thermal Diffusion
50%
Countercurrent Flow
50%
Impacting Body
50%
Free Surface Profile
50%
Small Deadrise Angle
41%
Mach Number
33%
Boundary Region
33%
Air Layer
33%
Impact Behavior
25%
Ice Protection System
25%
Development Tool
25%
Project Program
25%
Blunt Body
25%
Convergence Problem
25%
Raphson Algorithm
25%
Rainfall Infiltration
25%
Incompressible Liquid
25%
Solid Matrix
25%
Liquid Free Surface
23%
Layer Depth
21%
Flux Rate
16%
Thermodynamic Process
16%
Overburden Pressure
16%
Gas Pressure
16%
Saturation Vapor Pressure
16%
Diffusion Process
16%
Thermal State
16%
Thermal Boundary Layer
16%
Impact Pressure
16%
Scaling Law
16%
Solid Wall
16%
Impact Problem
16%
Oblique Impact
16%
Moving Surface
16%
Lubrication Force
16%
Parallel Flow
16%
Finite Difference Method
16%