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Technical Physics

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01.05.2020 | GASES AND LIQUIDS

Quasi-Macroscopic Boundary Structures in “Nonsimple” Fluids: Experiment and Model

verfasst von: B. A. Altoiz, V. N. Bondarev

Erschienen in: Technical Physics | Ausgabe 5/2020

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Abstract

Experiments have shown that near the boundary of a “nonsimple” fluid (such as nitrobenzene) on a solid substrate, there may exist an extended, so-called epitropic, phase with evidence of ordered arrangement of molecules (akin to that in a nematic liquid crystal). New data on the temperature dependence of the thickness of this phase in nitrobenzene on a metallic substrate are reported. These data (as well as earlier data for a nitrobenzene/quartz system) are interpreted in terms of a modified theoretical model of the epitropic phase as a pile of oligomers adhering to the substrate by means of adsorption forces. Ordering is essentially governed by lateral interactions in an ensemble of adsorbed oligomers. The possibility of boundary phase existence as a superheated crystal (in particular, nitrobenzene) stabilized by adsorption forces from the side of the substrate is discussed.

Vorheriger Artikel Capillary Instability of a Cylindrical Ferrofluid Jet in a Uniform Longitudinal Magnetic Field

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These measurements were conducted with the participation of A.F. Butenko and A.Yu. Popovskii.

As characteristic length l₀, we took the size of a benzene ring in a nitrobenzene molecule

Using the method of computer simulation, it was found that the distance between neighboring silanol groups is 0.378–0.547 nm, which corresponds to n_a ≈ (3.3–7.0) × 10¹⁸ m^–2.

Optical anisotropy measurements were taken with the participation of E.A. Shatagina, A.A. Shatagina, and I.A. Shatagin, and the dichroism was measured by A.Yu. Popovskii and A.F. Butenko.

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Titel: Quasi-Macroscopic Boundary Structures in “Nonsimple” Fluids: Experiment and Model
verfasst von: B. A. Altoiz
V. N. Bondarev
Publikationsdatum: 01.05.2020
Verlag: Pleiades Publishing
Erschienen in: Technical Physics / Ausgabe 5/2020
Print ISSN: 1063-7842
Elektronische ISSN: 1090-6525
DOI: https://doi.org/10.1134/S1063784220050023

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