Contact Impact Forces at Discontinuous 2-DOF Vibroimpact-Reference-Cited by-同舟云学术

Contact Impact Forces at Discontinuous 2-DOF Vibroimpact

Published:2016-01-01 Issue:1 Volume:1 Page:183-196
ISSN:2444-8656
Container-title:Applied Mathematics and Nonlinear Sciences
language:en
Short-container-title:

Author:

Bazhenov V.A.¹,Pogorelova O.S.¹,Postnikova T.G.¹

Affiliation:

1. Kyiv National University of Construction and Architecture , 31 , Povitroflotskiy avenu , Kyiv Ukraine

Abstract

Abstract Dynamic behaviour of contact impact forces in strongly nonlinear discontinuous vibroimpact system is studying. Contact impact force is one of the most significant vibroimpact system characteristics. We investigate the 2-DOF vibroimpact system by numerical parameter continuation method in conjunction with shooting and Newton-Raphson methods. We simulate the impact by nonlinear contact interactive force according to Hertz’s contact law. This paper is the continuation of the previous works [1,2]. We have determined the instability zones and bifurcations points for loading curves [1] and frequency-amplitude response [2] under variation of excitation amplitude and frequency. In this paper we investigate the behaviour of contact forces at bifurcation points particularly at discontinuous bifurcation points where set-valued Floquet multipliers cross the unit circle by jump that is their moduli becoming more than unit by jump. It is phenomenon unique for nonsmooth systems with discontinuous right-hand side. We observe also the contact forces increase at nT -periodical multiple impacts regimes. We also learn the change of contact forces behaviour when the impact between system bodies became the soft one due the change of system parameters.

Publisher

Walter de Gruyter GmbH

Subject

Applied Mathematics,Engineering (miscellaneous),Modeling and Simulation,General Computer Science

Link

https://www.sciendo.com/pdf/10.21042/AMNS.2016.1.00014

Reference51 articles.

1. Bazhenov, V. A., Lizunov, P. P., Pogorelova, O. S., Postnikova, T. G., & Otrashevskaia, V. V. (2015). Stability and Bifurcations Analysis for 2-DOF Vibroimpact System by Parameter Continuation Method. Part I: Loading Curve. Journal of Applied Nonlinear Dynamics, 4(4), 357-370. 10.5890/JAND.2015.11.003

2. Bazhenov, V. A., Lizunov, P. P., Pogorelova, O. S., Postnikova (2016) Numerical Bifurcation Analysis of Discontinuous 2-DOF Vibroimpact System. Part 2: Frequency-Amplitude response. Journal of Applied Nonlinear Dynamics, 5(3),(in press).

3. Jeffrey, M. R., Champneys, A. R., Di Bernardo, M., & Shaw, S. W. (2010). Catastrophic sliding bifurcations and onset of oscillations in a superconducting resonator. Physical Review E, 81(1), 016213. 10.1103/PhysRevE.81.016213

4. Bernardo, M., Budd, C., Champneys, A. R., & Kowalczyk, P. (2008). Piecewise-smooth dynamical systems: theory and applications (Vol. 163). Springer Science & Business Media. 10.1007/978-1-84628-708-4

5. Luo, A. C., & Guo, Y. (2012), Vibro–impact Dynamics. John Wiley & Sons. ISBN:978-1-118-35945-7.

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