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Dynamics of Mechanical Sliding System with Dry Friction

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the paper we consider a four degree of freedom model of a mechanical system with dry friction, which can explain non-regular vibrations of mechanical sliding system. Stick-slip vibrations are studied for the case, where body is riding on a driving belt as a foundation that moves at a constant velocity. From a mathematical point of view, the analyzed problem is governed by a set of nonlinear ordinary second order differential equations of motion, obtained using the Lagrangian method. Numerical analysis is carried out with the qualitative and quantitative theories of nonlinear differential equations reduced to the non-dimensional form. The behavior of the mentioned system is monitored via standard phase portraits, bifurcation diagram as well as Lyapunov exponents. Some interesting numerical results (periodic, quasi-periodic, chaotic and hyper-chaotic orbits) are obtained and reported in the paper.
Słowa kluczowe
Rocznik
Strony
61--70
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
  • Department of Automation, Biomechanics and Mechatronics Lodz University of Technology
  • Department of Automation, Biomechanics and Mechatronics Lodz University of Technology
autor
  • Department of Automation, Biomechanics and Mechatronics Lodz University of Technology
Bibliografia
  • 1. Andersson S., Soderberg A., Bjorklund S.: Friction models for sliding dry, boundary and mixed lubricated contacts. Tribology International 40, 2007, 580-587.
  • 2. Awrejcewicz J.: Analysis of stick-slip vibrations of mechanical systems caused by nonlinear friction. Lodz University of Technology, 1981, 180 pages (in Polish).
  • 3. Awrejcewicz J., Lamarque C.-H.: Bifurcation and chaos in nonsmooth mechanical systems. Vol. 45 Series A, World Scientific, New Jersey, London, Singapore, 2003.
  • 4. Awrejcewicz J., Olejnik P.: Analysis of dynamics systems with various friction laws. Applied Mechanics Reviews 58(6), 2005, 389-411.
  • 5. Awrejcewicz J., Pyryev Yu.: Regular and chaotic motion of a bush-shafit system with tribological processes. Mathematical Problems in Engineering, 2006, (DOI:10.1155/MPE/2006/86594).
  • 6. Awrejcewicz J., Grzelczyk D., Pyryev Yu.: A novel dry friction modeling and its impact on differential equations computation and Lyapunov exponents estimation. Journal of Vibroengineering 10(4), 2008, 475-482.
  • 7. Awrejcewicz J., Grzelczyk D.: Non-regular dynamics of the 4-DOF mechanical linear sliding guideways system with dry friction. Dynamical Systems - Applications, Eds. J. Awrejcewicz, M. Kaźmierczak, P. Olejnik, J. Mrozowski, TU of Lodz Press, 2013,483-496 (ISBN 978-83-7283-589-5).
  • 8. Galvanetto U., Bishop S.: Dynamics of a simple damped oscillator undergoing stick-slip vibrations. Meccanica 34,1999, 337-347.
  • 9. Guglielmino E., Edge K. A., Ghigliazza R.: On the control of the friction force. Meccanica 39,2004,395-406.
  • 10. Hinrichs N., Oestreich M., Popp K.: Dynamics oscillators with impact and friction. Chaos, Solitons and Fractals 8(4), 1997, 535-558.
  • 11. Ibrahim R. A.: Friction-induced vibration, chatter, sequeal, and chaos. Part I: Mechanics of contact and friction. Applied Mechanics Reviews 47(7), 1994,209-226.
  • 12. Kuznecov S. P.: Dynamical chaos. Moskva Fizmatlit, 2001 (in Russian).
  • 13. Leine R. I., Van Campen D. H., De Kraker A., Van den Steen: Stick-slip vibrations induced by alternate friction models. Nonlinear Dynamics 16(1), 1998,41-54.
  • 14. Martins J. A. C., Oden J. T., Simoes F. M. F.: A study of static and kinetic friction. International Journal of Engineering Science 28(1), 1990, 29-92.
  • 15. Valcovici V., Balan S. T., Voinea R.: Mecanica teoretica. Editura Tehnica, Bucuresti, 1963.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-71e4bb5c-99f6-4116-98ad-2d2ad005c9f0
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