Longitudinal forced harmonic vibrations of vertical rods with concentrated mass.

Longitudinal forced harmonic vibrations of vertical rods with concentrated mass.

Objective. Longitudinal forced harmonic vibrations of vertical rods with a concentrated mass at the end are considered.Method. The mathematical model of forced kinematically excited longitudinal vibrations is described by a differential equation and boundary conditions arising from the condition of...

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Bibliographic Details
Main Authors: H. P. Kulterbaev, M. M. Payzulaev
Format: Article
Language:Russian
Published: Dagestan State Technical University 2024-07-01
Series:Вестник Дагестанского государственного технического университета: Технические науки
Subjects:
vertical rod
concentrated mass
seismic impact
longitudinal forced harmonic vibrations
vibration amplitude
differential equation
boundary conditions
finite difference method
spectral density
standard deviations
Online Access:https://vestnik.dgtu.ru/jour/article/view/1536
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Summary:Objective. Longitudinal forced harmonic vibrations of vertical rods with a concentrated mass at the end are considered.Method. The mathematical model of forced kinematically excited longitudinal vibrations is described by a differential equation and boundary conditions arising from the condition of fixing the ends of the rod. The problem will be solved using the finite difference method.Result. With near-resonance oscillation there is a significant difference between the amplitudes and standard deviations. The closeness of β to the natural frequency and the smallness of the value of α make almost all values of the frequencies of seismic action almost resonant. The reliability of the results of problems in deterministic and stochastic formulations has been confirmed. It has been established that the forms and parameters of forced deterministic oscillations significantly depend on the combination of the frequencies of the forcing disturbances with the natural frequencies of the oscillatory system. It has been established that the forms and parameters of forced random oscillations significantly depend on the combination of the spectral density of the random process of disturbances with the discrete spectrum of eigenvalues.Conclusion. It is necessary to expand the scope of research to include other types of vibrations: combinations of longitudinal with transverse, angular, torsional, parametric, etc.
ISSN:2073-6185
2542-095X

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