Abstract
Structuring in the form of rotating rings, which has not been observed previously in magnetic fluids, is revealed, and the parameters of these structures are determined. Also, the evolution of vortices in a magnetic fluid layer is traced. The electrical properties of the layer exposed to a constant electric field are studied as functions of the field magnitude and exposure time.
References
V. M. Kozhevnikov and T. F. Morozova, Magnetohydrodynamics 37, 383 (2001).
Yu. I. Dikansky and O. A. Nechaeva, Koloidn. Zh. 65, 338 (2003).
V. M. Kozhevnikov, J. A. Larionov, I. J. Chuenkova, et al., Magnetohydrodynamics 40, 269 (2004).
J. G. Veguera, Yu. I. Dikansky, and Yu. A. Larionov, Magnetohydrodynamics 40, 281 (2004).
V. V. Chekanov, N. V. Kandaurova, and E. A. Bondarenko, Vestn. Stavropol. Gos. Univ. 28, 37 (2001).
V. M. Kozhevnikov, I. J. Chuenkova, M. I. Danilov, et al., Magnetohydrodynamics 41, 53 (2005).
V. M. Kozhevnikov, I. Yu. Chuenkova, M. I. Danilov, and S. S. Yastrebov, Pis’ma Zh. Tekh. Fiz. 31(21), 64 (2005) [Tech. Phys. Lett. 31, 932 (2005)].
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Original Russian Text © V.M. Kozhevnikov, I.Yu. Chuenkova, M.I. Danilov, S.S. Yastrebov, 2006, published in Zhurnal Tekhnicheskoĭ Fiziki, 2006, Vol. 76, No. 7, pp. 129–131.
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Kozhevnikov, V.M., Chuenkova, I.Y., Danilov, M.I. et al. Dynamics of self-organization in a thin layer of a magnetic fluid placed in a constant electric field. Tech. Phys. 51, 946–948 (2006). https://doi.org/10.1134/S1063784206070231
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DOI: https://doi.org/10.1134/S1063784206070231