Measurement of microscopic rheological properties in oil-in-water emulsions via spherical nanoindentation

IF 2.3 3区 工程技术 Q2 MECHANICS
Yunosuke Kimoto, Machi Horiai, Satoshi Nagase, Akira Uno, Yasunori Sato, Tsutomu Takahashi
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Abstract

Techniques for evaluating the micromechanical properties of materials are crucial in engineering fields. In previous studies, many researchers have utilized atomic force microscopy (AFM) to address these subjects. However, there are few data on dispersion systems, such as slurries and creams, due to the AFM tip having a nanoscale length. These materials are essential in industrial and engineering settings, requiring an accurate evaluation in a manner similar to AFM. Hence, we focus on ultrahigh accuracy and sensitive spherical nanoindentation (SNI), allowing the measurement of tissue-level features at the surface layer to characterize this soft matter. In this study, we show that SNI potentially measures the local spatial properties of concentrated dispersion fluids, especially oil-in-water (O/W) emulsions with various multilamellar structures. We set the parameter te for considering the organization of an equilibrium state consisting of the energy release rate and the work of adhesion on the Johnson–Kendall–Roberts (JKR) predictions. An important consequence of introducing te is that the results obtained by SNI match the theoretical JKR values for large te, suggesting that we can evaluate the microscopic properties more accurately using the classical JKR model. We find that the local features are affected by the lamellar bilayers and the work of adhesion Δγ grows monotonically with increases in space occupied by lamellar structures. Since viscosity effects, such as mechanical energy dissipation and interpenetration, appear as a part of Δγ, the behavior of Δγ clearly shows the microscopic characteristics of the O/W emulsions.

Abstract Image

Abstract Image

通过球形纳米压痕测量水包油型乳液的微观流变特性
评估材料微观机械特性的技术在工程领域至关重要。在以往的研究中,许多研究人员利用原子力显微镜(AFM)来解决这些问题。然而,由于原子力显微镜的尖端只有纳米级的长度,因此很少有关于分散系统(如泥浆和膏体)的数据。这些材料在工业和工程环境中至关重要,需要以类似原子力显微镜的方式进行精确评估。因此,我们将重点放在超高精度和灵敏度的球形纳米压痕(SNI)上,通过测量表层的组织级特征来表征这种软物质。在这项研究中,我们发现球形纳米压痕技术可以测量浓缩分散流体的局部空间特性,尤其是具有各种多胶束结构的水包油(O/W)乳液。我们根据约翰逊-肯德尔-罗伯茨(Johnson-Kendall-Roberts,JKR)的预测设定了参数 te,以考虑由能量释放率和粘附功组成的平衡态的组织。引入 te 的一个重要结果是,当 te 较大时,SNI 得到的结果与 JKR 的理论值相吻合,这表明我们可以使用经典 JKR 模型更准确地评估微观特性。我们发现,局部特征受到层状双分子层的影响,粘附功 Δγ 随着层状结构所占空间的增加而单调增长。由于粘度效应(如机械能耗散和相互渗透)作为 Δγ 的一部分出现,Δγ 的行为清楚地显示了 O/W 型乳液的微观特征。
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来源期刊
Rheologica Acta
Rheologica Acta 物理-力学
CiteScore
4.60
自引率
8.70%
发文量
55
审稿时长
3 months
期刊介绍: "Rheologica Acta is the official journal of The European Society of Rheology. The aim of the journal is to advance the science of rheology, by publishing high quality peer reviewed articles, invited reviews and peer reviewed short communications. The Scope of Rheologica Acta includes: - Advances in rheometrical and rheo-physical techniques, rheo-optics, microrheology - Rheology of soft matter systems, including polymer melts and solutions, colloidal dispersions, cement, ceramics, glasses, gels, emulsions, surfactant systems, liquid crystals, biomaterials and food. - Rheology of Solids, chemo-rheology - Electro and magnetorheology - Theory of rheology - Non-Newtonian fluid mechanics, complex fluids in microfluidic devices and flow instabilities - Interfacial rheology Rheologica Acta aims to publish papers which represent a substantial advance in the field, mere data reports or incremental work will not be considered. Priority will be given to papers that are methodological in nature and are beneficial to a wide range of material classes. It should also be noted that the list of topics given above is meant to be representative, not exhaustive. The editors welcome feedback on the journal and suggestions for reviews and comments."
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