Extensional rheometry of mobile fluids. Part II: Comparison between the uniaxial, planar, and biaxial extensional rheology of dilute polymer solutions using numerically optimized stagnation point microfluidic devices

IF 3 2区 工程技术 Q2 MECHANICS
S. Haward, S. Varchanis, G. McKinley, M. A. Alves, A. Shen
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引用次数: 2

Abstract

Part I of this paper [Haward et al., J. Rheol. 67, 995–1009 (2023)] presents a three-dimensional microfluidic device (the optimized uniaxial and biaxial extensional rheometer, OUBER) for generating near-homogeneous uniaxial and biaxial elongational flows. Here, in Part II, the OUBER device is employed to examine the uniaxial and biaxial extensional rheology of model dilute polymer solutions, compared with measurements made under planar extension in the optimized-shape cross-slot extensional rheometer [OSCER, Haward et al. Phys. Rev. Lett. 109, 128301 (2012)]. In each case, micro-particle image velocimetry is used to measure the extension rate as a function of the imposed flow conditions, and excess pressure drop measurements enable estimation of the tensile stress difference generated in the fluid via a new analysis based on the macroscopic power balance for flow through each device. Based on this analysis, for the most dilute polymer sample tested, which is “ultradilute”, the extensional viscosity is well described by Peterlin’s finitely extensible nonlinear elastic dumbbell model. In this limit, the biaxial extensional viscosity at high Weissenberg numbers (Wi) is half that of the uniaxial and planar extensional viscosities. At higher polymer concentrations, although the fluids remain dilute, the experimental measurements deviate from the model predictions, which is attributed to the onset of intermolecular interactions as the polymer chains unravel in the extensional flows. Of practical significance (and fundamental interest), elastic instability occurs at a significantly lower Wi in uniaxial extensional flow than in either biaxial or planar extensional flow, thereby limiting the utility of this flow type for extensional viscosity measurement.
流动流体的拉伸流变仪。第二部分:使用数值优化停滞点微流体装置对稀释聚合物溶液的单轴、平面和双轴拉伸流变性的比较
本文的第一部分[Haward等人,J.Rheol.67995–1009(2023)]介绍了一种三维微流体装置(优化的单轴和双轴拉伸流变仪,OUBER),用于产生近乎均匀的单轴或双轴拉伸流。在此,在第二部分中,OUBER装置用于检查模型稀释聚合物溶液的单轴和双轴拉伸流变性,与在优化形状的交叉槽拉伸流变仪中在平面拉伸下进行的测量进行比较[OSER,Haward等人Phys.Rev.Lett.109128301(2012)]。在每种情况下,使用微粒图像测速仪来测量作为施加的流动条件的函数的延伸率,并且过压降测量使得能够通过基于流过每个设备的宏观功率平衡的新分析来估计流体中产生的拉伸应力差。基于此分析,对于测试的最稀的聚合物样品,即“超稀”,Peterlin的有限可扩展非线性弹性哑铃模型很好地描述了拉伸粘度。在这个极限中,在高Weissenberg数(Wi)下的双轴拉伸粘度是单轴和平面拉伸粘度的一半。在更高的聚合物浓度下,尽管流体保持稀释,但实验测量结果与模型预测不同,这归因于聚合物链在拉伸流中解开时分子间相互作用的开始。具有实际意义(和基本意义)的是,单轴拉伸流中的弹性不稳定性发生在比双轴或平面拉伸流中明显更低的Wi处,从而限制了这种流类型用于拉伸粘度测量的实用性。
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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来源期刊
Journal of Rheology
Journal of Rheology 物理-力学
CiteScore
6.60
自引率
12.10%
发文量
100
审稿时长
1 months
期刊介绍: The Journal of Rheology, formerly the Transactions of The Society of Rheology, is published six times per year by The Society of Rheology, a member society of the American Institute of Physics, through AIP Publishing. It provides in-depth interdisciplinary coverage of theoretical and experimental issues drawn from industry and academia. The Journal of Rheology is published for professionals and students in chemistry, physics, engineering, material science, and mathematics.
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