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3.【Europ. Polym. J.】Monte Carlo Simulation of Miscibility of Polymer Blends with Repulsive Interactions: Effect of Chain Structure
writer:Tongfei Shi, Gangyao Wen, Wei Jiang, Lijia An*, Binyao Li
keywords:Monte Carlo Simulation, Polymer Blends
source:期刊
specific source:Europ. Polym. J. 2003, 39(3), 551-560.
Issue time:2003年

The effects of the chain structure and the intramolecular interaction energy of an A/B copolymer on the miscibility of the binary blends of the copolymer and homopolymer C have been studied by means of a Monte Carlo simulation. In the system, the interactions between segments A, B and C are more repulsive than those between themselves. In order to study the effect of the chain structure of the A/B copolymer on the miscibility, the alternating, random and block copolymers were introduced in the simulations, respectively. The simulation results show that the miscibility of the binary blends strongly depends on the intramolecular interaction energy (ε?AB) between segments A and B within the A/B copolymers. The higher the repulsive interaction energy, the more miscible the A/B copolymer and homopolymer C are. For the diblock copolymer/homopolymer blends, they tend to form micro phase domains. However, the phase domains become so small that the blend can be considered as a homogeneous phase for the alternating copolymer/homopolymer blends. Furthermore, the investigation of the average end-to-end distance (h?) in different systems indicates that the copolymer chains tend to coil with the decrease of ε?AB whereas the h? of the homopolymer chains depends on the chain structure of the copolymers. As for the system containing the alternating or the random copolymers, the homopolymer chains also tend to coil with the decrease of ε?AB. However, for the systems including the block copolymers, there is a slight difference in the h? of the homopolymer chains with the variation of ε?AB.