Phantom chain simulations for fracture of star polymer networks on the effect of arm molecular weight

Yuichi Masubuchi
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Abstract

Despite many efforts, the fracture of network polymers under extension is yet to be elucidated. This study investigated the effect of strand molecular weight on the fracture characteristics of the networks made from star-branched prepolymers with various node functionalities $3 \le f \le 8$ and conversion ratios $0.6 \le {\phi}_c \le 0.95$ via molecular simulations with phantom chains. The networks were created via end-linking reactions of star polymers with the arm molecular weight $N_a$ = 2, 5, and 10, simulated by a Brownian dynamics scheme. The cycle rank of the percolated network ${\xi}$ was entirely consistent with the mean-field theory, implying that the reaction occurred independently and the network connectivity was statistically fair. Afterward, the networks were alternatively subjected to energy minimization and uniaxial stretch until the break. From the stress-strain curves recorded during the stretch, the stretch and stress at the break, ${\lambda}_b$ and ${\sigma}_b$, and work for fracture $W_b$ were obtained. For these values, the following relations were found: ${\lambda}_b \sim N_a^{(1/2)} {\xi}^{(-1/3)}$, ${\sigma}_b \sim {\nu}_{br} N_a^{(4/3)} {\xi}^{(2/3)}$, and $W_b \sim {\nu}_{br} N_a^{(4/3)} {\xi}^{(2/3)}$, where ${\nu}_{br}$ is the branch point density.
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关于臂分子量影响的星形聚合物网络断裂幻影链模拟
尽管做了很多努力,但网络聚合物在延伸条件下的断裂仍有待阐明。本研究通过使用幻影链进行分子模拟,研究了股分子量对不同节点官能度为 $3 \le f \le 8$ 和转化率为 $0.6 \le {\phi}_c \le 0.95$ 的星形支链聚合物网络断裂特性的影响。这些网络是通过臂分子量为 N_a$ = 2、5 和 10 的星型聚合物的端接反应生成的,并通过布朗动力学方案进行了模拟。渗流网络的循环等级 ${\xi}$ 与均场理论完全一致,这意味着反应的发生是独立的,网络的连通性在统计学上是公平的。随后,对网络分别进行了能量最小化和单轴拉伸试验,直至断裂。根据拉伸过程中记录的应力-应变曲线,得到了断裂处的拉伸和应力 ${\lambda}_b$ 和 ${\sigma}_b$ 以及断裂功 $W_b$。对于这些值,我们发现了以下关系:${\lambda}_b \sim N_a^{(1/2)} {\xi}^{(-1/3)}$, ${\sigma}_b \sim {\nu}_{br}.N_a^{(4/3)}{\xi}^{(2/3)}$,以及 $W_b \sim{\nu}_{br}其中 ${\nu}_{br}$ 是分支点密度。
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