CRITICAL PROPERTIES OF CROSSLINKED POLYMER MELTS

G. Grest, K. Kremer
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引用次数: 12

Abstract

The critical behavior at the percolation threshold for a randomly crosslinked polymer melt of linear chains is studied by computer simulations. We show that the fraction of crosslinks per chain pc at the vulcanization/percolation threshold is independent of chain length N for large N. Thus for long chains, the volume fraction of crosslinks at the transition decreases as 1/N in agreement with Flory. If we allow linkages only between different chains and no self-linkages, we find that pc ∼ 0.6 in the limit of large N. This value in 20 % larger than Flory's mean field result, pc = 1/2, as some of the crosslinks do not increase the number of chains in a cluster. When we allow intra-chain linkages as they occur experimentally, the scaling with N remains unchanged but pc increases by an addition 20 % for the present model. We also find in agreement with de Gennes that the critical exponents are well described by their mean field values and that the size of the critical region where fluctuations are important is small for long polymer chains. The fractal dimension of the percolating cluster at pc was found to be 3.
交联聚合物熔体的关键性能
通过计算机模拟研究了线性链随机交联聚合物熔体在渗透阈值处的临界行为。我们发现,在大N时,每链pc在硫化/渗透阈值处的交联分数与链长N无关,因此对于长链,过渡处交联的体积分数以1/N的比例减小,这与Flory的结果一致。如果我们只允许不同链之间的连接而不允许自连接,我们发现在大n的极限pc ~ 0.6,这个值比Flory的平均场结果pc = 1/2大20%,因为一些交联不会增加簇中的链数。当我们允许实验中发生的链内连接时,N的标度保持不变,但pc在本模型中增加了20%。我们还发现与de Gennes一致的是,临界指数可以很好地用它们的平均场值来描述,并且对于长聚合物链来说,波动重要的临界区域的大小很小。发现pc处的渗滤团的分形维数为3。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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