蒸发聚合物溶液中的图案形成--渗湿与分解之间的相互作用

IF 4.7 Q1 POLYMER SCIENCE
Pankaj Mahawar, M. Praveena, Shreyanil Bhuyan, Dipin S. Pillai and Sivasurender Chandran*, 
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引用次数: 0

摘要

溶液蒸发过程中的图案形成在一些工业环境中很常见,涉及多个过程的复杂相互作用,包括溶液的润湿/脱湿、扩散和流变特性。在受控条件下监测蒸发过程中出现的模式,可以对不同过程进行解构,进而加深我们对这一常见而复杂现象的理解。在此,我们探究了初始条件(由溶液浓度 c0 定义)对空气-水界面上蒸发聚合物溶液中图案形成的重要性。耐人寻味的是,作为图案特征的横向长度尺度(ξ)的初始下降在浓度较高时出现了上扬,揭示了重入行为。我们采用的梯度动力学模型由薄膜高度和溶液中聚合物比例的耦合演化方程组成。我们的模拟捕捉了两种不同的长度尺度,揭示了ξ(c0)重入行为的内在原因。悬浮液与水之间的长程不稳定相互作用导致了薄膜溶液的脱水,而聚合物与溶剂之间的相分离则发生在较短的长度尺度上。我们的研究结果表明了初始浓度对图案形成的重要性,以及由此对聚合物薄膜最终特性的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Pattern Formation in Evaporating Polymer Solutions─Interplay between Dewetting and Decomposition

Pattern Formation in Evaporating Polymer Solutions─Interplay between Dewetting and Decomposition

Pattern formation during solution evaporation is common in several industrial settings and involves a complex interplay of multiple processes, including wetting/dewetting, diffusion, and rheological characteristics of the solution. Monitoring the emergence of patterns during evaporation under controlled conditions may allow deconvolution of different processes and, in turn, improve our understanding of this common yet complex phenomenon. Here, we probe the importance of initial conditions, defined by the solution concentration c0, on the pattern formation in evaporating polymer solutions on the air–water interface. Intriguingly, the initial decrease in the lateral length scale (ξ), characterizing the patterns, takes an upturn at higher concentrations, revealing reentrant behavior. We employ a gradient dynamics model consisting of coupled evolution equations for the film height and the polymer fraction in the solution. Our simulations capture two different length scales revealing the reasons underlying the re-entrant behavior of ξ(c0). While the long-range destabilizing interactions between suspension and water result in the dewetting of thin film solutions, the phase separation between the polymer and solvent occurs at shorter length scales. Our results demonstrate the importance of initial concentration on pattern formation and, thereby, on the resultant properties of thin polymer films.

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