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Magnitnaya Gidrodinamika 27, 2 (1991)
| Rus. | En. | ||
A. O. Tsebers.
Nonlinear magnetodiffusion problems in the intrinsic field of a particle ensemble
| 3 | 123 | |
N. Buske.
Determining the properties of magnetic fluids by measuring the rate of buoyant ascent of a suspended glass sphere in the presence of a magnetic field gradient
| 11 | 129 | |
V. A. Alekseev.
Rheological characteristics of a mercury-based ferrocolloid as functions of temperature
| 16 | 133 | |
A. Yu. Zubarev.
Spinodal decay in magnetic fluids
| 23 | 139 | |
I. I. Volodikhina,
E. L. Toroptsev and
V. V. Chekanov.
Recovery of the function of magnetic-particle distribution by size from the magnetic-fluid magnetization curve
| 30 | 145 | |
Yu. D. Shikhmurzaev.
Electrodynamic parameters of a magnetic fluid with a dielectric layer of surface-active substance on the particles
| 35 | 149 | |
I. T. Selezov and
S. V. Korsunskii.
Nonlinear waves in hydroelastic systems with magnetic fluids
| 41 | 154 | |
S. E. Dvorchik,
S. A. Lifits and
S. Yu. Reutskii.
Synthesis of a magnetic field in magnetic-fluid separation problems
| 45 | 157 | |
N. Yu. Kolpakov and
V. I. Kolesnichenko.
Nonlinear electrovortex flow regimes for an incompressible fluid. 2. Electrovortex flows between coaxial cylinders
| 50 | 162 | |
A. Gailitis and
G. Gerbeth.
The effect of a magnetic field on the thermocapillary motion in a conducting droplet
| 55 | 166 | |
A. V. Boyarevich,
Yu. M. Gel'fgat and
L. A. Gorbunov.
Effect of a vertical magnetic field on the stability of motion of an isothermal melt in a model of the Czochralski process
| 59 | 170 | |
L. A. Gorbunov and
E. D. Lyumkis.
Investigating the effect of a vertical magnetic field on the process of germanium single-crystal growth by the Czochralski method
| 67 | 177 | |
M. I. Zhilyaev,
T. A. Khmel' and
V. I. Yakovlev.
Boundary-layer stability in magnetohydrodynamic streamlining of a plate with an internal source of electromagnetic fields
| 76 | 184 | |
I. V. Kazachkov.
Analytical solutions of the equations of electromagnetic excitation of nonlinear waves in films
| 83 | 190 | |
B. V. Kebadze,
Yu. O. Komissarov and
L. A. Adamovskii.
Study of the periodic oscillations in the twisted flow of a liquid metal subjected to the action of a magnetic field
| 90 | 196 | |
J. J. Valdmanis and
R. R. Krisbergs.
Electromagnetic forces in magnetohydrodynamic devices with the onset of the depth effect
| 96 | 200 | |
L. K. Kovalev,
S. M. -A. Koneev,
A. E. Larionov and
V. D. Tsar'kov.
Experimental study of multipole Faraday magnetohydrodynamic generators
| 101 | 204 | |
L. K. Kovalev,
S. M. -A. Koneev and
V. D. Tsar'kov.
Experimental study of magnetohydrodynamic channels with Pi-shaped perforated electrodes
| 106 | 208 | |
Yu. M. Gorislavets.
Experimental investigation into the magnetohydrodynamic rotation of a liquid metal in induction furnace channels
| 111 | 212 | |
V. G. Bashtovoi,
M. S. Krakov and
S. G. Pogirnitskaya.
Numerical studies of the heat-release power in magnetofluid packing seals, with consideration of geometric factors
| 116 | 216 | |
V. P. Bocheninskii,
M. S. Drits,
G. Ya. Zvane,
S. L. Ivanov,
Ya. Ya. Lielpeter,
M. V. Pukis,
P. M. Stukalov,
A. V. Tananaev,
Yu. P. Ushakov and
V. S. Shmarov.
Electromagnetic pumps with a dual power supply. Experimental studies
| 122 | 221 |
Brief communications
| Rus. | En. | ||
P. K. Khizhenkov and
B. V. Magonov.
Structural transformations in a layer of a magnetic fluid in a rotating magnetic field
| 127 | 226 | |
P. K. Khizhenkov and
N. V. Zhadinskii.
Application of magnetofluidization in experimental medicine
| 129 | 228 | |
L. F. Zhukov and
A. A. Kuchaev.
Measuring the temperature of the liquid metal in magnetihydrodynamic installations
| 132 | 231 | |
A. A. Kuchaev and
L. F. Zhukov.
Measuring the angular velocity of motion of liquid aluminium within the cylindrical channel of an electromagnetic installation
| 135 | 234 |