Role of the attractive portion of the Lennard-Jones potential in the homogeneity of melts of isotactic and syndiotactic polypropylene

Recently Clancy reported a Monte Carlo simulation that reproduces the tende ncy, observed by Mulhaupt and co-workers, for demixing of melts of isotacti c polypropylene (iPP) and syndiotactic polypropylene (sPP). The short-range intermolecular interactions in the coarse-grained chains in the simulation are controlled by a rotational isomeric state model for PP that was descri bed by Suter The intermolecular interactions of the beads are controlled by a discretized representation of a continuous Lennard-Jones (LJ) potential that describes the interaction of two molecules of propane. The work report ed here reveals that the outcome is sensitive to the truncation of this LJ potential. A weak tendency for demixing of the 50:50 iPP:sPP melt is seen i f the LJ potential is truncated so that only its repulsive part is used in the simulation. Inhomogeneity is enhanced if the truncation of the LJ poten tial is shifted to larger distances, so that the attractive branch of the L J potential is incorporated in the simulation. This observation in the simu lation leads to conclusive identification of the mechanism responsible for demixing of the 50:50 melt. It also implies that the same mechanism may aff ect the miscibility of melts of other vinyl polymers in which the chains di ffer in stereochemical composition. (C) 2001 American Institute of Physics.