The work mathematically simulates magnetoelastic vibrations of thin conductive shells in a non-stationary magnetic field. The obtained results are analyzed taking into account the Lorentz forces."Science and innovation" international scientific journal. ISSN: 2181-333
We develop a theoretical model of magneto active hemispherical shells and verify it by comparing wit...
In this study, the magnetoelastic loads for a vibrating conductive beam exposed perpendicularly to a...
A geometrically exact dimensionally reduced order model for the nonlinear deformation of thin magnet...
The paper mathematically simulates the magnetoelastic vibration of non-ferromagnetic conductive micr...
The work mathematically simulates the magnetoelastic oscillations of a conductive microelement under...
AbstractOn the basis of Kirchhoff hypothesis the problem of vibrations of conductive plate in a long...
The dynamic instability of electroconductive cylindrical shells interacting with an external magneti...
We develop a reduced model for hard-magnetic, thin, linear-elastic shells that can be actuated throu...
© 2022 Elsevier LtdWe develop a theoretical model that can predict the mechanical behavior of magnet...
It is required to clarify the characteristics of forced vibration with magnetic damping for anearthq...
In this study, the magnetoelastic loads for a vibrating conductive beam exposed perpendicularly to a...
For the limiter blade of nuclear fusion reactor under complex magnetic field, a cantilever conductiv...
The paper addresses the issue of coupling between the electromagnetic and elastic vibrations and dea...
Based on the equivalent single-layer linear theory for laminated shells, free and forced vibrations ...
Based on the nonlocal Love's shell theory, this paper develops an embedded magneto-electro-elastic (...
We develop a theoretical model of magneto active hemispherical shells and verify it by comparing wit...
In this study, the magnetoelastic loads for a vibrating conductive beam exposed perpendicularly to a...
A geometrically exact dimensionally reduced order model for the nonlinear deformation of thin magnet...
The paper mathematically simulates the magnetoelastic vibration of non-ferromagnetic conductive micr...
The work mathematically simulates the magnetoelastic oscillations of a conductive microelement under...
AbstractOn the basis of Kirchhoff hypothesis the problem of vibrations of conductive plate in a long...
The dynamic instability of electroconductive cylindrical shells interacting with an external magneti...
We develop a reduced model for hard-magnetic, thin, linear-elastic shells that can be actuated throu...
© 2022 Elsevier LtdWe develop a theoretical model that can predict the mechanical behavior of magnet...
It is required to clarify the characteristics of forced vibration with magnetic damping for anearthq...
In this study, the magnetoelastic loads for a vibrating conductive beam exposed perpendicularly to a...
For the limiter blade of nuclear fusion reactor under complex magnetic field, a cantilever conductiv...
The paper addresses the issue of coupling between the electromagnetic and elastic vibrations and dea...
Based on the equivalent single-layer linear theory for laminated shells, free and forced vibrations ...
Based on the nonlocal Love's shell theory, this paper develops an embedded magneto-electro-elastic (...
We develop a theoretical model of magneto active hemispherical shells and verify it by comparing wit...
In this study, the magnetoelastic loads for a vibrating conductive beam exposed perpendicularly to a...
A geometrically exact dimensionally reduced order model for the nonlinear deformation of thin magnet...
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