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Mathematics and Mechanics

Russian Academy of Sciences
 Founded
in January 1936
(Translated from 1958)
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ISSN 0021-8928
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IssuesArchive of Issues2017-6pp.473-479

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V.G. Bazhenov and V.L. Kotov, "Numerical-analytical method for investigating the stability of motion of bodies of revolution in soft soil media," J. Appl. Math. Mech. 81 (6), 473-479 (2017)
Year 2017 Volume 81 Issue 6 Pages 473-479
DOI 10.1016/j.jappmathmech.2018.03.016
Title Numerical-analytical method for investigating the stability of motion of bodies of revolution in soft soil media
Author(s) V.G. Bazhenov (Institute of Mechanics, Lobachevsky State University of Nizhny Novgorod - National Research University, Nizhny Novgorod, Russia, bazhenov@mech.unn.ru)
V.L. Kotov (Institute of Mechanics, Lobachevsky State University of Nizhny Novgorod - National Research University, Nizhny Novgorod, Russia)
Abstract A method is presented of investigating the stability of rectilinear motion of a body of revolution in a compressible soil medium with nonlinear physical-mechanical properties of the soil and two-dimensional effects of flow taken into account. The parameters of the axisymmetric process are calculated numerically, whereas the perturbed motion - the radial displacement and rotation relative to the centre of mass - is determined analytically. In the particular case of a conical projectile and linear pressure distribution along the generatrix, an estimate is obtained of the critical position of the centre of mass as a function of the taper angle, the mass and velocity of the body, the coefficient of friction, and the hydrodynamic parameters of the soil medium. Unlike the usually implemented situation of constant pressure postulated by the local interaction models, a displacement of the critical position of the centre of mass by up to 20% of the length of the cone has been found, which leads to a substantial decrease in the margin of stability in a restricted sense. Here, the force parameters and the kinematic parameters of motion of the cone on the boundary of the stability region differ both qualitatively and quantitatively. The stability of motion of bodies in soil media with a nonlinear pressure distribution over the contact surface has not previously been investigated.
Keywords body (solid) of revolution projectile; shock adiabat; yield point angular momentum about the centre of mass
Received 12 December 2016
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