Description Variation of normalized energy of droplets of different anisotropic wetting configurations on a microgrooved surface
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description Simulation of Cassie-Baxter droplet with SE. a Isometric view of the initial drop shape on five pillars where constraints are defined. b Isometric view of the final drop shape. Pinning of contact...
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description Schematic of the energy assignment of a CB droplet on microgrooved substrate. The solid portion in between two consecutive microgrooves is denoted as a pillar
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description Comparison of experimental and numerically obtained drop shape at critical sliding angle on microgrooved samples: a on sample DG67WP187WG130 and b on sample DG67WP26WG130. Shown in both figures,...
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description Comparison of drop shape and critical sliding angle obtained by varying the base contour shape in numerical model. In the top row, critical sliding angle is obtained by keeping the circular shape...
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description a Hysteresis force and gravity force acting on a drop on an inclined substrate. b Variation of drop shape at different inclination angles (sample DG67WP187WG130, drop volume = 35 μL, θI = 101.2°,...
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description Correction of base contour (contact line) using vertex force on the triple line for sample DG67WP80WG130. a Circular contact line. b The corrected contact line
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description Drop shape comparison for sample DG67WP110WG130 with a experimentally obtained sessile drop shape viewed from the parallel direction to the groove, b contact line shape from the simulation on...
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description Comparison between experimental and numerically obtained critical sliding angles for a drop volume of 35 μL and for surfaces with a variation of pillar width and groove depth. These variations are...
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description a Drop shape at critical inclination angle by different numerical methods for sample DG98WP112WG130. The figure shows the shape of the base contour obtained by using azimuthal angle distribution...
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description a Variation of total and normalized energy of droplets deposited on five pillars as a function of droplet volume. b The top and bottom views of three simulated Cassie-Baxter droplets as a...
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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Description Drop shape for a drop size of 35 μL at the point of impending motion on a polished baseline surface, b microgrooved surface DG67WP187WG130, c microgrooved surface DG67WP110WG130, and d microgrooved...
Article Title: Numerical study of wetting stability and sliding behavior of liquid droplets on microgrooved surfaces
Publication Title: Colloid and Polymer Science

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