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Volumn 133, Issue 20, 2010, Pages
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Contact line motion in confined liquid-gas systems: Slip versus phase transition
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Author keywords
[No Author keywords available]
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Indexed keywords
CLASSICAL PROBLEMS;
CONFINED LIQUIDS;
CONTACT LINE MOTION;
CONTACT LINES;
CONTINUUM FLUID MECHANICS;
CONTINUUM HYDRODYNAMICS;
CRITICAL TEMPERATURES;
DENSITY RATIO;
DIFFUSIVE TRANSPORT;
DISSIPATIVE PROCESS;
DOMINANT MECHANISM;
DYNAMIC EFFECTS;
DYNAMIC VAN DER WAALS THEORY;
ENTROPY PRODUCTION;
ENTROPY PRODUCTION RATES;
FINITE-DIFFERENCE ALGORITHMS;
FLUID SLIP;
FLUID-SOLID INTERFACES;
GENERAL BOUNDARY CONDITIONS;
GUIDING PRINCIPLES;
HYDRODYNAMIC EQUATIONS;
INTERFACE MODEL;
INTERFACE MODELING;
LIQUID GAS INTERFACE;
LIQUID GAS SYSTEMS;
LIQUID GAS TRANSITION;
LOCAL EQUILIBRIUM;
LOW TEMPERATURES;
MASS TRANSPORT;
MINIMUM ENTROPY;
MOVING CONTACT LINES;
NO-SLIP BOUNDARY CONDITIONS;
NUMERICAL SIMULATION;
ONE-COMPONENT FLUIDS;
ONSAGER;
POSITIVE DEFINITENESS;
RELATIVE CONTRIBUTION;
SLIP EFFECTS;
SLIP LENGTH;
SOLID SURFACE;
SOLID WALL;
STRESS SINGULARITIES;
TWO-COMPONENT;
TWO-FLUID;
BOUNDARY CONDITIONS;
COMPETITION;
CONTACTS (FLUID MECHANICS);
ENTROPY;
FLUID DYNAMICS;
GASES;
HYDRODYNAMICS;
LIQUIDS;
PHASE TRANSITIONS;
PLANTS (BOTANY);
STRESSES;
TRANSPORT PROPERTIES;
TWO PHASE FLOW;
VAN DER WAALS FORCES;
WALLS (STRUCTURAL PARTITIONS);
PHASE INTERFACES;
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EID: 78650155769
PISSN: 00219606
EISSN: None
Source Type: Journal
DOI: 10.1063/1.3506886 Document Type: Article |
Times cited : (28)
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References (38)
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