Effectiveness of DPD Simulations to Predict the Dynamics of Polymer Chains in Solutions at Equilibrium and Steady Shear Flows

IF 1.8 4区 工程技术 Q3 POLYMER SCIENCE Macromolecular Theory and Simulations Pub Date : 2023-08-27 DOI:10.1002/mats.202300045
Praphul Kumar, Sanjay Jana, Hari Shyam, Indranil Saha Dalal
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Abstract

The suitability of dissipative particle dynamics simulations is investigated to predict the dynamics of polymer chains in dilute polymer solutions. The authors find that the predictions depend on the value of the repulsive parameter for bead-bead pairwise interactions used in the DPD simulations (aij). For all systems, the chain sizes and the relaxation time spectrum are analyzed. For aij = 0, theta solvent behaviour is obtained, whereas the dynamics at equilibrium agrees well with the predictions of the Zimm model. For higher values of aij, the static properties of the chain show good solvent behaviour. However, the scaling laws for the chain dynamics at equilibrium show wide variations, with consistent results obtained only at an intermediate value of aij = 25. At higher values of the repulsive parameter (aij ⩾ 25), the simulations are also able to predict the abrupt cut-off in the relaxation spectrum, which has been observed earlier in experiments of dilute solutions. To verify further, the chain dynamics in shear flow using DPD simulations is studied. Specifically, the variation of the chain is analysed stretch and end-over-end tumbling with shear rates. Overall, the trends obtained from DPD simulations agree well with those observed in earlier BD simulations.

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DPD模拟在平衡和稳定剪切流动中预测聚合物链动力学的有效性
在这项研究中,我们研究了耗散粒子动力学(DPD)模拟在稀聚合物溶液中预测聚合物链动力学的适用性,在稀聚合物溶液中,聚合物链由一组由几乎不可扩展的弹簧连接的珠子表示。在行为方面,这些弹簧非常类似于代表库恩阶跃的杆。我们发现预测依赖于DPD模拟中使用的头-头成对相互作用的排斥参数的值(aij)。对所有系统的链大小和弛豫时间谱进行了分析。当aij = 0时,得到了链尺寸的溶剂行为,而平衡动力学与Zimm模型的预测非常吻合。当aij值较高时,链的静态性质表现出良好的溶剂性。然而,平衡链动力学的标度规律变化很大,只有在aij = 25的中间值时才得到一致的结果。在排斥力参数的较高值(aij大于或等于25)下,我们的模拟也能够预测弛豫谱中的突然截断,这已经在早先的稀释溶液实验中观察到。当链长为10库恩步长时,截断达到了这样的程度,即谱由一个时间尺度组成。这与早期的实验和MD模拟非常吻合。为了进一步验证,我们还使用DPD模拟研究了剪切流中的链动力学。具体来说,我们分析了链拉伸和端到端翻滚随剪切速率的变化。总的来说,从DPD模拟中得到的趋势与早期BD模拟中观察到的趋势一致。这篇文章受版权保护。版权所有
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来源期刊
Macromolecular Theory and Simulations
Macromolecular Theory and Simulations 工程技术-高分子科学
CiteScore
3.00
自引率
14.30%
发文量
45
审稿时长
2 months
期刊介绍: Macromolecular Theory and Simulations is the only high-quality polymer science journal dedicated exclusively to theory and simulations, covering all aspects from macromolecular theory to advanced computer simulation techniques.
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