Monte Carlo simulation of two interacting liquid/vapour interfaces

## Abstract Adhesion of immiscible polymers during two‐component injection moulding may be improved by transreactions of properly functionalised components. We performed MC simulations based on the three‐dimensional coarse‐grained bond fluctuation model (BFM) including a thermal interaction potenti

Xlonte Carlo simulations in the MJ7T-ensemble have been performed on liquid mater between two rigrd walk. Variations m denstty and in ortentation of water molecules have been calculated as a function of distance from the walls. OscilJations in .I number of properties have been found and extend sever

Simulations were carried out of the polymer-polymer chain interpenetration, diffusion, and adhesion of crosslinked polymers with dangling chain ends. Concentration profiles were determined for various polymer chain lengths and densities. The penetration depth was less than the radius of gyration of

for water molecules is derived. The new terms are combined with previously dcvclopcd two-and three-body POtCntht tcrrnsond upplied in n hlctropolis-Monte Carlo simulation at 298 K for nn (N, I',?") ensemble with 513 water molecules. Improvements, relative to the results using only two-body, or two-a

## Abstract Summary: Monte Carlo simulation on a simple lattice model has been used to study the adsorption of asymmetrical triblock copolymers from a non‐selective solvent at the solid‐liquid interface. The size distributions of train, loop and tail configurations for those copolymers are obtained