Add to ORKGA sessile liquid drop can deform the substrate on which it rests if the solid is sufficiently “soft.” In this paper we compute the detailed spatial structure of the capillary forces exerted by the drop on the solid substrate using a model based on Density Functional Theory. We show that, in addition to the normal forces, the drop exerts a previously unaccounted tangential force. The resultant effect on the solid is a pulling force near the contact line directed towards the interior of the drop, i.e., not along the interface. The resulting elastic deformations of the solid are worked out and illustrate the importance of the tangential force
We address the partial wetting of liquid drops on ultrathin solid sheets resting on a deformable fou...
Wetting of deformable substrates has gained significant interest over the past decade due to a multi...
Soft solids, such as polymeric gels, are elastic materials that can be significantly deformed by cap...
A sessile liquid drop can deform the substrate on which it rests if the solid is sufficiently “soft....
The capillary forces acting on a sessile drop placed on a solid surface has two basic components: (1...
The capillary forces exerted by liquid drops and bubbles on a soft solid are directly measured using...
Using the DLVO (Derjaguin, Landau, Verwey, Overbeek) theory, which accounts for quantum mechanics an...
Liquid drops on soft solids generate strong deformations below the contact line, resulting from a ba...
The contact angle that a liquid drop makes on a soft substrate does not obey the classical Young’s r...
We develop a theory for drying-induced stresses in sessile, poroelastic drops undergoing evaporation...
We calculate the normal capillary retention force that anchors a drop to a solid surface in the dire...
Extremely compliant elastic materials, such as thin membranes or soft gels, can be deformed when wet...
Phenomena related to wet adhesion are commonly observed in nature and engineering devices. If the ma...
The interfacial mechanics of soft elastic networks plays a central role in biological and technologi...
We address the partial wetting of liquid drops on ultrathin solid sheets resting on a deformable fou...
Wetting of deformable substrates has gained significant interest over the past decade due to a multi...
Soft solids, such as polymeric gels, are elastic materials that can be significantly deformed by cap...
A sessile liquid drop can deform the substrate on which it rests if the solid is sufficiently “soft....
The capillary forces acting on a sessile drop placed on a solid surface has two basic components: (1...
The capillary forces exerted by liquid drops and bubbles on a soft solid are directly measured using...
Using the DLVO (Derjaguin, Landau, Verwey, Overbeek) theory, which accounts for quantum mechanics an...
Liquid drops on soft solids generate strong deformations below the contact line, resulting from a ba...
The contact angle that a liquid drop makes on a soft substrate does not obey the classical Young’s r...
We develop a theory for drying-induced stresses in sessile, poroelastic drops undergoing evaporation...
We calculate the normal capillary retention force that anchors a drop to a solid surface in the dire...
Extremely compliant elastic materials, such as thin membranes or soft gels, can be deformed when wet...
Phenomena related to wet adhesion are commonly observed in nature and engineering devices. If the ma...
The interfacial mechanics of soft elastic networks plays a central role in biological and technologi...
We address the partial wetting of liquid drops on ultrathin solid sheets resting on a deformable fou...
Wetting of deformable substrates has gained significant interest over the past decade due to a multi...
Soft solids, such as polymeric gels, are elastic materials that can be significantly deformed by cap...