Raihan Mahmud Kamal, Wu Sen, Dort Heston, Baghdady Micah, Song Yongxin, Xuan Xiangchun
Department of Mechanical Engineering, Clemson University, Clemson, SC, 29634-0921, USA.
College of Marine Engineering, Dalian Maritime University, Dalian, 116026, P. R. China.
Soft Matter. 2022 Oct 5;18(38):7427-7440. doi: 10.1039/d2sm01024k.
The flow of polymer solutions under extensional conditions is frequently encountered in numerous engineering fields. Planar contraction and/or expansion microchannels have been a subject of interest for many studies in that regard, which, however, have mostly focused on shallow channel structures. We investigate here the effect of changing the depth of contraction-expansion microchannels on the flow responses of three types of polymer solutions and water. The flow of viscoelastic polyethylene oxide (PEO) solution is found to become more stable with suppressed vortex formation and growth in the contraction part while being less stable in the expansion part with the increase of the channel depth. These opposing trends in the contraction and expansion flows are noted to have similarities with our recent findings of constriction length-dependent instabilities in the same PEO solution (M. K. Raihan, S. Wu, Y. Song and X. Xuan, Soft Matter, 2021, , 9198-9209), where the contraction flow gets stabilized while the expansion flow becomes destabilized with the increase of the constriction length. In contrast, the entire flow becomes less stable in deeper channels for the shear-thinning xanthan gum (XG) solution as well as the shear thinning and viscoelastic polyacrylamide (PAA) solution. This observation aligns with that of water flow, which is attributed to the reduced top/bottom wall stabilizing effects.
聚合物溶液在拉伸条件下的流动在众多工程领域中经常遇到。平面收缩和/或扩张微通道一直是这方面许多研究的关注对象,然而,这些研究大多集中在浅通道结构上。我们在此研究改变收缩-扩张微通道深度对三种聚合物溶液和水的流动响应的影响。发现随着通道深度的增加,粘弹性聚环氧乙烷(PEO)溶液的流动在收缩部分由于涡旋形成和生长受到抑制而变得更稳定,而在扩张部分则变得不太稳定。收缩流和扩张流中的这些相反趋势被注意到与我们最近在相同PEO溶液中发现的与收缩长度相关的不稳定性相似(M. K. Raihan、S. Wu、Y. Song和X. Xuan,《软物质》,2021年,,9198 - 9209),其中随着收缩长度的增加,收缩流变得稳定而扩张流变得不稳定。相比之下,对于剪切变稀的黄原胶(XG)溶液以及剪切变稀和粘弹性的聚丙烯酰胺(PAA)溶液,在更深的通道中整个流动变得不太稳定。这一观察结果与水流的情况一致,这归因于顶部/底部壁稳定作用的减弱。