The behavior of interfaces and contact lines arises from intermolecular interactions like Van der Waals forces. To consider this multi–phase behavior on the continuum scale, appropriate physical descriptions must be formulated. While the Continuum Surface Force model is well–engineered for the description of interfaces, there is still a lack of treatment of contact lines, which are represented by the intersection of a fluid–fluid interface and a solid boundary surface. In our approach we use the “non compensated Young force” to model contact line dynamics and therefore use an extension to the Navier–Stokes equations in analogy to the extension of a two–phase interface in the CSF model. Because particle–based descriptions are well–suited for c...
We present a phase field approach to wetting problems, related to the minimization of capillary ener...
We propose a comprehensive immersed boundary-based dynamic contact angle framework capable of handli...
When a liquid touches a solid surface, it spreads to minimize the system's energy. The classic thin-...
The behavior of interfaces and contact lines arises from intermolecular interactions like Van der Wa...
The behavior of interfaces and contact lines arises from intermolecular interactions like Van der Wa...
The description of wetting phenomena is a challenging problem on every considerable length-scale. Th...
The description of wetting phenomena is a challenging problem on every considerable length-scale. Th...
The description of wetting phenomena is a challenging problem on every considerable length-scale. Th...
The description of wetting phenomena on the continuum scale is a challenging problem, since intermol...
The description of wetting phenomena on the continuum scale is a challenging problem, since intermol...
The physics of fluid-fluid-solid contact line dynamics and wetting behaviors are closely related to ...
Dynamic wetting phenomena are omnipresent in nature and technology. The legs of the water-strider ma...
Dynamic wetting phenomena are omnipresent in nature and technology. The legs of the water-strider ma...
Wetting phenomena underlie many natural and industrial processes, from the proper functioning of the...
Wetting phenomena underlie many natural and industrial processes, from the proper functioning of the...
We present a phase field approach to wetting problems, related to the minimization of capillary ener...
We propose a comprehensive immersed boundary-based dynamic contact angle framework capable of handli...
When a liquid touches a solid surface, it spreads to minimize the system's energy. The classic thin-...
The behavior of interfaces and contact lines arises from intermolecular interactions like Van der Wa...
The behavior of interfaces and contact lines arises from intermolecular interactions like Van der Wa...
The description of wetting phenomena is a challenging problem on every considerable length-scale. Th...
The description of wetting phenomena is a challenging problem on every considerable length-scale. Th...
The description of wetting phenomena is a challenging problem on every considerable length-scale. Th...
The description of wetting phenomena on the continuum scale is a challenging problem, since intermol...
The description of wetting phenomena on the continuum scale is a challenging problem, since intermol...
The physics of fluid-fluid-solid contact line dynamics and wetting behaviors are closely related to ...
Dynamic wetting phenomena are omnipresent in nature and technology. The legs of the water-strider ma...
Dynamic wetting phenomena are omnipresent in nature and technology. The legs of the water-strider ma...
Wetting phenomena underlie many natural and industrial processes, from the proper functioning of the...
Wetting phenomena underlie many natural and industrial processes, from the proper functioning of the...
We present a phase field approach to wetting problems, related to the minimization of capillary ener...
We propose a comprehensive immersed boundary-based dynamic contact angle framework capable of handli...
When a liquid touches a solid surface, it spreads to minimize the system's energy. The classic thin-...