Magnetically Induced Flows in Thrombosed Channels with a Ferrofluid Layer

Musikhin, A. Yu.

doi:10.31857/S0044451023120222

PII

10.31857/S0044451023120222-1

DOI

10.31857/S0044451023120222

Publication type

Article

Status

Published

Authors

A. Yu. Musikhin

Affiliation: Ural Federal University

Volume/ Edition

Volume 164 / Issue number 6

Pages

1120-1127

Abstract

We proposed a theoretical model and a method for its approximate analysis for flows induced by a uniform rotating magnetic field in a channel filled with a nonmagnetic fluid with a ferrofluid layer injected into it. One end of the channel is assumed to be blocked (thrombosed). This study is aimed at the development of the scientific basis of the magnetically induced intensification of drug transport in blocked blood vessels.

Keywords

Date of publication

15.12.2023

Year of publication

2023

Number of purchasers

Views

References

1. L. Trahms, Biomedical applications of magnetic nanoparticles, in Colloidal magnetic uids. Basics, Development and application of ferro uids, Springer, Berlin (2009).
2. F. M. Creighton, Magnetic-based systems for treating occluded vessels, U. S. Patent No. 8.308.628 (2012).
3. M. J. Clements, A mathematical model for magnetically-assisted delivery of thrombolytics in occluded blood vessels for ischemic stroke treatment. Doctoral dissertation, Texas University (2016).
4. A. Musickhin, A. Y. Zubarev, M. Raboisson-Michel, G. Verger-Dubois, P. Kuzhir, Field-induced circulation ow in magnetic uids, Phil. Trans. R. Soc. A. 378, 20190250 (2020).
5. А. Ю. Зубарев, А. Ю. Мусихин, Макроскопические течения, индуцируемые феррожидкостью под действием вращающегося магнитного поля, ЖЭТФ 163, 602 (2023).
6. R. Rosensweig, Ferrohydrodynamics, Cambridge, New York (1985).
7. В. Покровский, Статистическая механика разбавленных суспензий, Наука, Москва (1978).
8. Л. Д. Ландау, Е. М. Лифшиц, Электродинамика сплошных сред, Наука, Москва (1982).
9. M. Raboisson-Michel, Micro-vortex magn'etique pour le transport convective de mol'ecules: vers une application biom'edicale, University Cote d'Azur (2022).
10. E. Blums, A. Cebers, M. Maiorov, Magnetic Fluids, Walter de Gruyter, Berlin (1997).
11. М. А. Марценюк, Ю. Л. Райхер, М. И. Шлиомис, К кинетике намагничивания суспензий однодоменных ферромагнитных частиц, ЖЭТФ 65, 1 (1973).
12. S. Odenbach, S. Thurm, Magnetoviscous e ect in ferro uids, Ferro uids. Magnetically controllable uids and their aplications, Springer, Berlin (2002).
13. L. Onsager, The e ects of shape on the interaction of colloidal particles, Ann. N. Y. Acad. Sci. 5, 4 (1949).
14. P. G. de Gennes, The Physics of Liquid Crystals, Clarendon Press, Oxford (1974).

GOST	Musikhin A. Magnetically Induced Flows in Thrombosed Channels with a Ferrofluid Layer // Journal of Experimental and Theoretical Physics. – 2023. – V. 164. – Issue number 6 C. 1120-1127 . URL: https://jetpras.ru/10-31857-s0044451023120222-1/?version_id=109986. DOI: 10.31857/S0044451023120222
MLA	Musikhin, A. Yu "Magnetically Induced Flows in Thrombosed Channels with a Ferrofluid Layer." Journal of Experimental and Theoretical Physics. 164.6 (2023).:1120-1127. DOI: 10.31857/S0044451023120222
APA	Musikhin A. (2023). Magnetically Induced Flows in Thrombosed Channels with a Ferrofluid Layer. Journal of Experimental and Theoretical Physics. vol. 164, no. 6, pp.1120-1127 DOI: 10.31857/S0044451023120222

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Magnetically Induced Flows in Thrombosed Channels with a Ferrofluid Layer

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RAS PhysicsЖурнал экспериментальной и теоретической физики Journal of Experimental and Theoretical Physics

Magnetically Induced Flows in Thrombosed Channels with a Ferrofluid Layer

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