Simulation of the random scission of C–C bonds in the initial stage of the thermal degradation of polyethylene

P. Doruker , Y. Wang , W.L. Mattice
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引用次数: 15

Abstract

We performed molecular dynamics simulations to analyze the initial stage of the thermal degradation of polyethylene, which is dominated by the random scission reaction. The simulations were initiated from structures that were taken from previously equilibrated snapshots of the amorphous polymer and of a free-standing thin film. Isolated chains were also used for comparison. Our systems were coupled to a thermal heat bath, and the effect of different coupling constants was studied. Rate of random scission increases as the strength of the temperature coupling increases. Rates of reaction are almost similar in thin films and the bulk, whereas the rates are much faster in isolated chains. Expansion of the free-standing thin film accompanies degradation, producing fragments of various sizes. Chains of higher molecular weights than the initial chains can be produced due to recombination of fragments during the expansion of thin films. The polydispersity index of the resulting fragments is higher in thin films compared to the bulk. The bonds at the low density portion of the thin films have a higher probability of being broken.

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聚乙烯热降解初期C-C键随机断裂的模拟
通过分子动力学模拟分析了聚乙烯热降解初期以随机裂解反应为主的过程。模拟开始于从先前的非晶聚合物和独立薄膜的平衡快照中获得的结构。分离链也用于比较。我们的系统被耦合到一个热浴,并研究了不同的耦合常数的影响。随温度耦合强度的增大,随机断裂速率增大。反应速率在薄膜和体中几乎相似,而在孤立链中则快得多。独立薄膜的膨胀伴随着降解,产生各种大小的碎片。在薄膜膨胀过程中,由于碎片的重组,可以产生比初始链分子量更高的链。所得碎片的多分散性指数在薄膜中比在体中高。薄膜的低密度部分的键具有较高的断裂概率。
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