Moscow University Mechanics Bulletin

Moscow University Mechanics Bulletin  is an international peer-reviewed journal of scientific publications, reflecting the most important areas of mechanics at Lomonosov Moscow State University. The journal is dedicated to research in theoretical mechanics, applied mechanics and motion control, hydrodynamics, aeromechanics, gas and wave dynamics, theory of elasticity, theory of elasticity and mechanics of composites. The journal welcomes manuscripts from all countries. 

Current Issue

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Vol 74, No 6 (2019)

Article

Integrable Systems with Many Degrees of Freedom and with Dissipation
Shamolin M.V.
Abstract

The integrability of certain classes of dynamical systems on the tangent bundle of a multidimensional manifold is shown. In this case, the force fields with variable dissipation generalize those considered earlier.

Moscow University Mechanics Bulletin. 2019;74(6):137-146
pages 137-146 views
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(Eng)
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Oil Displacement by Water-Gas Mixtures with Heat Release
Romanova D.I., Dushin V.R., Nikitin V.F.
Abstract

Some numerical results obtained by modeling the thermogas displacement of oil from a porous reservoir are discussed. The displacement is performed by a heated water-gas mixture. The injected two-component gas consists of nitrogen and oxygen. Heat, carbon dioxide, and water vapors are released during the reaction process. The heat release decreases the oil viscosity and accelerates the displacement process.

Moscow University Mechanics Bulletin. 2019;74(6):147-152
pages 147-152 views
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(Eng)
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Inertial Reference Frames for Subsystems of Deformable Bodies
Brovko G.L.
Abstract

It is assumed that a certain reference frame is inertial for a system of moving and interacting bodies called a large system. In the framework of classical continuum mechanics, some necessary and sufficient conditions are obtained for the existence of a reference frame for a subsystem of this large system considered as an independent large system. The motion of such a new reference frame with respect to the old reference frame (with the accuracy up to the Galilean transformations) is specified.

Moscow University Mechanics Bulletin. 2019;74(6):153-158
pages 153-158 views
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(Eng)
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Minimax Optimization for a System of Line-of-Sight Stabilization
Latonov V.V.
Abstract

The minimax problem of stabilization is solved for a line of sight near a programmed trajectory. The motion of this line is described by a system of fourth-order linear differential equations. In this problem, the perturbations are considered as the deviations of the initial position from zero and as time-varying perturbations. The stabilization is performed by a linear feedback. The feedback coefficients are obtained as optimal for the worst possible perturbations.

Moscow University Mechanics Bulletin. 2019;74(6):159-163
pages 159-163 views
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(Eng)
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