Conformation of isotactic polystyrene (IPS) in the bulk crystallized state as revealed by small-angle neutron scattering

Abstract

Neutron scattering experiments have been performed on isotactic polystyrene (IPS) samples in the bulk crystallized state ( T crystallization = 185°C). The determination of the conformation of tagged chains ranging from 2.5 × 10 5 to 7 × 10 5 has been undertaken on two different hydrogenated IPS matrices. A matrix of usual molecular weight ( M w = 4 × 10 5) leads to results which do not agree with Flory's model. In this case, measurements on radius of gyration R g show on the one hand an important increase of this parameter (∼40%) with increasing crystallinity for the highest molecular weight tagged chains and on the other hand a variation with molecular weight like M 0.78. These results are interpreted with a schematic model involving a long crystalline sequence incorporated in the monocrystal along the 110 plane and two amorphous wings. Such an assumption is confirmed by the scattering behaviours in the intermediate range. On the other hand, by using an IPSH matrix of very high molecular weight ( M w = 1.75 × 10 6), and the same tagged chains previously considered, a very weak variation of R g with increasing crystallinity is observed. This leads to consider in this case Flory's conformation which is corroborated by data obtained in the intermediate range.