Molecular dynamics has been used to study the wetting of model polymer surfaces, the crystal surfaces of polyethylene (PE), poly(tetrafluoroethylene) (PTFE), and poly(ethylene terephthalate) (PET) by water and methylene iodide. In the simulation a liquid droplet is placed on a model surface and constant temperature, rigid body molecular dynamics is carried out while the model surface is kept fixed. A generally defined microscopic contact angle between a liquid droplet and a solid surface is quantitatively calculated from the volume of the droplet and the interfacial area between the droplet and the surface. The simulation results agree with the trend in experimental data for both water and methylene iodide. The shape of the droplets on the ...
The aim of this study is to link polytetrafluoroethylene (PTFE) surface characteristics with its wet...
The study of wetting phenomena is of great interest due to the multifaceted technological applicatio...
Wettability of the solid surface is a very important property in the micro/nanoscale thermal fluidic...
The present study investigates the effect of microscopic structure on the wettability of poly(vinyl...
Abstract: A challenging topic in surface engineering is predicting the wetting properties of soft in...
To understand how the motion of a droplet on a surface can be controlled by wettability gradients is...
The properties of polymer films and droplets at substrates of different topography are studied emplo...
A water droplet in contact with a platinum surface was simulated by the molecular dynamics method. W...
Shape deformation of polymeric droplets on gel-like surfaces is studied by using a combination of th...
Monte Carlo computer simulations were utilized to probe the behavior of homopolymer droplets adsorbe...
Aiming at the wall-wetting problem in internal combustion engines, to actively control the behaviors...
The wetting of a soluble substrate is a situation commonly encountered in day-to-day life, life. Hyd...
In our daily life and many of industrial applications, we usually find fluids which interact with so...
Soft polymeric solids, as also found in nature, have gained a great interest among scientists and en...
Resin/reinforcement wetting is a key parameter in the manufacturing of carbon nanotube (CNT)-based c...
The aim of this study is to link polytetrafluoroethylene (PTFE) surface characteristics with its wet...
The study of wetting phenomena is of great interest due to the multifaceted technological applicatio...
Wettability of the solid surface is a very important property in the micro/nanoscale thermal fluidic...
The present study investigates the effect of microscopic structure on the wettability of poly(vinyl...
Abstract: A challenging topic in surface engineering is predicting the wetting properties of soft in...
To understand how the motion of a droplet on a surface can be controlled by wettability gradients is...
The properties of polymer films and droplets at substrates of different topography are studied emplo...
A water droplet in contact with a platinum surface was simulated by the molecular dynamics method. W...
Shape deformation of polymeric droplets on gel-like surfaces is studied by using a combination of th...
Monte Carlo computer simulations were utilized to probe the behavior of homopolymer droplets adsorbe...
Aiming at the wall-wetting problem in internal combustion engines, to actively control the behaviors...
The wetting of a soluble substrate is a situation commonly encountered in day-to-day life, life. Hyd...
In our daily life and many of industrial applications, we usually find fluids which interact with so...
Soft polymeric solids, as also found in nature, have gained a great interest among scientists and en...
Resin/reinforcement wetting is a key parameter in the manufacturing of carbon nanotube (CNT)-based c...
The aim of this study is to link polytetrafluoroethylene (PTFE) surface characteristics with its wet...
The study of wetting phenomena is of great interest due to the multifaceted technological applicatio...
Wettability of the solid surface is a very important property in the micro/nanoscale thermal fluidic...