We investigate the dynamics of a self-rewetting drop placed on a substrate with a constant temperature gradient via three-dimensional numerical simulations using a conservative level-set approach to track the interface of the drop. The surface tension of a so-called self-rewetting fluid exhibits a parabolic dependence on temperature with a well-defined minimum. Two distinct drop behaviours, namely deformation and elongation, are observed when it is placed at the location of the minimum surface tension. The drop spreads slightly and reaches a pseudo-steady state in the deformation regime, while it continuously spreads until breakup in the elongation regime. Theoretical models based on the forces exerted on the drop have been developed to pre...
The spreading of a liquid microdrop across a solid surface is examined using the interface formation...
Consider the spreading dynamics of a two-dimensional droplet over chemically heterogeneous substrate...
The wetting of soft elastic substrates exhibits many features that have no counterpart on rigid surf...
We numerically investigate the dynamic of a self-wetting drop placed on a substrate with a linear te...
We study the migration of droplets on a solid surface which is under a uniform temperature gradient....
We study the spreading dynamics of droplets on uniformly heated substrates. More specifically, we co...
ABSTRACT: We study the thermocapillary-driven spreading of a droplet on a nonuniformly heated substr...
We study the thermocapillary-driven spreading of a droplet on a nonuniformly heated substrate for fl...
We study the thermocapillary-driven spreading of a droplet on a nonuniformly heated substrate for fl...
We study the two-dimensional dynamics of a droplet on an inclined, nonisothermal solid substrate. We...
We revisit the spreading of a thin drop of incompressible Newtonian fluid on a uniformly heated or c...
We study the two-dimensional dynamics of a droplet on an inclined, nonisothermal solid substrate. We...
ABSTRACT: We study the two-dimensional dynamics of a droplet on an inclined, nonisothermal solid sub...
Maintaining the non-wetting property of textured hydrophobic surfaces is directly related to the pre...
As discovered by Leidenfrost, liquids placed on very hot solids levitate on a cushion of their own v...
The spreading of a liquid microdrop across a solid surface is examined using the interface formation...
Consider the spreading dynamics of a two-dimensional droplet over chemically heterogeneous substrate...
The wetting of soft elastic substrates exhibits many features that have no counterpart on rigid surf...
We numerically investigate the dynamic of a self-wetting drop placed on a substrate with a linear te...
We study the migration of droplets on a solid surface which is under a uniform temperature gradient....
We study the spreading dynamics of droplets on uniformly heated substrates. More specifically, we co...
ABSTRACT: We study the thermocapillary-driven spreading of a droplet on a nonuniformly heated substr...
We study the thermocapillary-driven spreading of a droplet on a nonuniformly heated substrate for fl...
We study the thermocapillary-driven spreading of a droplet on a nonuniformly heated substrate for fl...
We study the two-dimensional dynamics of a droplet on an inclined, nonisothermal solid substrate. We...
We revisit the spreading of a thin drop of incompressible Newtonian fluid on a uniformly heated or c...
We study the two-dimensional dynamics of a droplet on an inclined, nonisothermal solid substrate. We...
ABSTRACT: We study the two-dimensional dynamics of a droplet on an inclined, nonisothermal solid sub...
Maintaining the non-wetting property of textured hydrophobic surfaces is directly related to the pre...
As discovered by Leidenfrost, liquids placed on very hot solids levitate on a cushion of their own v...
The spreading of a liquid microdrop across a solid surface is examined using the interface formation...
Consider the spreading dynamics of a two-dimensional droplet over chemically heterogeneous substrate...
The wetting of soft elastic substrates exhibits many features that have no counterpart on rigid surf...