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

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...

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Published in	Rheologica acta Vol. 62; no. 11-12; pp. 631 - 640
Main Authors	Kimoto, Yunosuke, Horiai, Machi, Nagase, Satoshi, Uno, Akira, Sato, Yasunori, Takahashi, Tsutomu
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.11.2023 Springer Nature B.V
Subjects	Adhesion Alcohol Atomic force microscopy Bilayers Characterization and Evaluation of Materials Chemistry and Materials Science Complex Fluids and Microfluidics Dispersion Emulsions Energy dissipation Energy release rate Engineering Food Science Lamellar structure Material properties Materials Science Mechanical Engineering Mechanical properties Nanoindentation Original Contribution Polymer Sciences Rheological properties Rheology Scanning electron microscopy Shear strain Slurries Soft and Granular Matter Stress concentration Surface layers Surfactants O/W emulsions Multilamellar Adhesion Nanoindentation
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ISSN	0035-4511 1435-1528
DOI	10.1007/s00397-023-01415-x

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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 t e 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 t e is that the results obtained by SNI match the theoretical JKR values for large t e , 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 Δ γ 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 Δ γ , the behavior of Δ γ clearly shows the microscopic characteristics of the O/W emulsions.
AbstractList	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. 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 t e 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 t e is that the results obtained by SNI match the theoretical JKR values for large t e , 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 Δ γ 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 Δ γ , the behavior of Δ γ clearly shows the microscopic characteristics of the O/W emulsions.
Author	Kimoto, Yunosuke Nagase, Satoshi Uno, Akira Sato, Yasunori Horiai, Machi Takahashi, Tsutomu
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Cites_doi	10.1515/polyeng-2015-0030 10.1515/crll.1882.92.156 10.1021/la8024155 10.3131/jvsj2.56.258 10.1016/j.polymertesting.2020.106353 10.1016/j.colsurfb.2015.06.044 10.1016/j.mser.2004.05.001 10.1115/1.3644020 10.1016/j.polymertesting.2019.01.019 10.1002/polb.24871 10.1111/j.1747-1567.2011.00716.x 10.1529/biophysj.106.082420 10.1016/j.eml.2019.100540 10.1016/0021-9797(92)90285-T 10.1038/ncomms3728 10.1016/j.actbio.2018.02.017 10.1016/0021-9797(75)90018-1 10.1098/rspa.1971.0141 10.1016/j.biomaterials.2021.120861 10.1016/j.triboint.2018.01.037 10.1016/C2099-0-21560-1 10.1016/j.colsurfa.2020.125828 10.1016/j.jnoncrysol.2020.120410 10.1021/la404925h 10.1143/jpsj.78.114802 10.1016/j.powtec.2004.03.008 10.1016/j.msea.2005.05.118 10.1021/la001565b 10.1016/j.colsurfb.2007.04.014 10.1016/S0927-796X(01)00039-0 10.1557/jmr.2004.19.3.716 10.1039/c2sm06825g 10.1007/s11340-012-9695-0 10.1016/j.jmbbm.2015.11.034 10.1557/JMR.2002.0377
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SubjectTerms	Adhesion Alcohol Atomic force microscopy Bilayers Characterization and Evaluation of Materials Chemistry and Materials Science Complex Fluids and Microfluidics Dispersion Emulsions Energy dissipation Energy release rate Engineering Food Science Lamellar structure Material properties Materials Science Mechanical Engineering Mechanical properties Nanoindentation Original Contribution Polymer Sciences Rheological properties Rheology Scanning electron microscopy Shear strain Slurries Soft and Granular Matter Stress concentration Surface layers Surfactants
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Title	Measurement of microscopic rheological properties in oil-in-water emulsions via spherical nanoindentation
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