Understanding the reactive interfacial flow dynamics with production of viscoelastic material through large amplitude oscillatory shear (LAOS) measurements of the viscoelastic interface

IF 3 2区 工程技术 Q2 MECHANICS Journal of Rheology Pub Date : 2023-07-01 DOI:10.1122/8.0000650
Harumi Yagi, Y. Nagatsu, Masayoshi Takano, Ryuta X. Suzuki
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Abstract

In this study, the interfacial flow dynamics involving a chemical reaction that produces viscoelastic material at the interface between two liquids is experimentally investigated, and the material is evaluated using interfacial large amplitude oscillatory shear (LAOS) measurements. The flow dynamics indicates fingering patterns at low injection flow rates and fracturing patterns at high flow rates in Hele-Shaw cells, where a more viscous xanthan gum solution is displaced by the less viscous Fe(NO3)3 solution with various concentrations of Fe(NO3)3. The threshold flow rate value of such a transition is different for various concentrations of Fe(NO3)3. Although such a transition without chemical reactions has been discussed, the factors responsible for the transition remain unclear. The flow dynamics in Hele-Shaw cells is considered to flow under large deformation, which exceeds the small amplitude oscillatory shear condition but is under the LAOS condition. Therefore, LAOS measurement of the viscoelastic interface is performed for various concentrations of Fe(NO3)3. Using the characteristic properties extracted from the LAOS measurements, the elastic and viscous forces of the viscoelastic interface are evaluated. We show the transition from fingering to fracturing patterns when the elastic force exceeds a certain value. These findings highlight that rheology under large deformation of the viscoelastic interface plays a crucial role in interfacial flow, where viscoelastic materials are produced by chemical reactions at the interface. In addition, this study should be an example of the successful elucidation of physical phenomena by interfacial LAOS, which has been reported in a very limited number of studies.
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通过粘弹性界面的大振幅振荡剪切(LAOS)测量,了解粘弹性材料产生时的反应界面流动动力学
在这项研究中,涉及化学反应的界面流动动力学,在两种液体之间的界面产生粘弹性材料进行了实验研究,并使用界面大振幅振荡剪切(老挝)测量来评估材料。流动动力学表明,Hele-Shaw细胞在低注射流速下呈指动模式,在高注射流速下呈破裂模式,其中粘性较强的黄原胶溶液被不同浓度的粘性较低的Fe(NO3)3溶液所取代。对于不同浓度的Fe(NO3)3,这种转变的阈值是不同的。尽管人们已经讨论过这种没有化学反应的转变,但导致这种转变的因素仍不清楚。Hele-Shaw胞体的流动动力学被认为是大变形下的流动,超过了小振幅振荡剪切条件,但处于LAOS条件下。因此,对不同浓度的Fe(NO3)3进行粘弹性界面的LAOS测量。利用从LAOS测量中提取的特征属性,对粘弹性界面的弹性和粘性力进行了评估。我们展示了当弹性力超过一定值时,从指指模式到断裂模式的转变。这些发现强调粘弹性界面大变形下的流变学在界面流动中起着至关重要的作用,其中粘弹性材料是由界面上的化学反应产生的。此外,本研究应该是界面LAOS成功阐明物理现象的一个例子,这在非常有限的研究中得到了报道。
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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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