Self-oscillation of the Froude pendulum (Numerical study)

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Abstract

A numerical study of the self-oscillation of the Froude friction pendulum is presented. For comparison with approximate analytical or graphical solutions, the cubic approximation is used as one of the approximations of the friction characteristic; changes in the case of other approximations are shown.

By results of the conducted computational experiment was built characteristics of the amplitude of self-oscillations from dimensionless ratios, complexes of similarity, which showed the convergence of the estimated and actual (obtained by numerical integration) values of the amplitudes of oscillation for small values of friction and slope characteristics; if you increase the moment amplitude is also increased.

It is noted that the results of computer modeling will significantly depend on the design, manufacturing technology and operating conditions of the device in question.

About the authors

Robert А. Sunarchin

Peter the Great St.Petersburg Polytechnic University

Author for correspondence.
Email: sunar1939@mail.ru
Russian Federation

Pavel V. Petrov

Ufa state aviation University technical University

Email: pgl.petrov@mail.ru
Russian Federation

References

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  6. Molotkov N. Ya., Lomakina O. V. Research of mechanical self-oscillating systems. GOU VPO "TSTU"; tolmt@nnn.tstu.ru
  7. Hayashi T. Nonlinear oscillations in physical systems. MIR publishing house, Moscow, 1968.

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Copyright (c) 2020 Р. А. Сунарчин, П. В. Петров

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Journal of Dynamics and Vibroacoustics

ISSN 2409-4579 (Online)

Publisher and Founder: Samara National Research University, 34, Moskovskoye shosse, Samara, 443086, Russian Federation.

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