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Volumn 385, Issue 1-3, 2011, Pages 95-103
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Simulation of meniscus stability in superhydrophobic granular surfaces under hydrostatic pressures
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Author keywords
3 D modeling; Capillary pressure; Critical pressure; Granular surface; Superhydrophobic coating
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Indexed keywords
COATINGS;
HYDRAULICS;
HYDRODYNAMICS;
HYDROSTATIC PRESSURE;
MATHEMATICAL MODELS;
MORPHOLOGY;
NUMERICAL METHODS;
PARTICLES (PARTICULATE MATTER);
SURFACE PROPERTIES;
THREE DIMENSIONAL;
TITRATION;
3-D MODELING;
CAPILLARY PRESSURES;
CRITICAL PRESSURE;
GRANULAR SURFACE;
SUPERHYDROPHOBIC COATINGS;
HYDROPHOBICITY;
ARTICLE;
CHEMICAL STRUCTURE;
FORCE;
HYDROPHOBICITY;
HYDROSTATIC PRESSURE;
MATERIAL COATING;
MATHEMATICAL MODEL;
PARTICLE SIZE;
PREDICTION;
PRIORITY JOURNAL;
SIMULATION;
SURFACE PROPERTY;
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EID: 79960647083
PISSN: 09277757
EISSN: 18734359
Source Type: Journal
DOI: 10.1016/j.colsurfa.2011.05.055 Document Type: Article |
Times cited : (42)
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References (34)
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