Phantom chain simulations for fracture of polymer networks created from star polymer mixtures of different functionalities

Abstract

Fujiyabu et al. have experimentally reported that mixing of 3-arm star prepolymers into 4-arm analog improves the toughness of the resultant polymer networks compared to the base network composed of 4-arm star polymers only. For the mechanism of this phenomenon, this study conducted phantom chain simulations for polymer networks composed of mixtures of star branch prepolymers with equal arm length and different arm numbers, (f1,f2 )=(3,4), (3,6) and (3,8), for various f1=3 prepolymer fractions φ3. The networks were created via end-linking reactions between prepolymers traced by a Brownian dynamics scheme, and the network structure was stored at different conversion ratios φc, ranging from 0.6 and 0.9. The cycle rank of the gelated networks is fully consistent with the mean field theory, demonstrating that the examined network structure is statistically fair. The networks were stretched with energy minimization until the break, and fracture characteristics including strain at break εb, stress at break σb, work for fracture Wb, and the ratio of broken strands φbb, were obtained. εb, σb/φbb, and Wb/φbb data plotted against roughly follow the master curves reported for the base networks without mixing, implying that the change of fracture properties by the mixing of f1=3 mainly corresponds to a decrease of . The mixing slightly suppresses σb/φbb and Wb/φbb for large f2 cases compared to the base networks because of a biased breakage at the network strands without extenders, which are prepolymers with only two reacted arms. The analysis for broken strands exhibited a new master curve for the -dependence of the molecular weight of broken strands.

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