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Modal analysis of gearbox transmission system in bucket wheel excavator

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Planetary gears are widely used in modern machines as ones of the most effective forms of power transmission. In this paper, a special configuration of a gearbox composed of one stage spiral bevel gear and a two stage helical planetary gear used in a bucket wheel excavator gearbox is presented to investigate its modal properties. A lumped-parameter model is formulated to obtain equations of motion and the eigenvalue problem is solved. The modes are presented in low-frequency and high-frequency bands. Distributions of modal kinetic and strain energies are studied.
Rocznik
Strony
253--264
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
autor
  • Laboratory of mechanics, Modelling and Production, National school of Engineers of Sfax, Sfax, Tunisia
autor
  • Laboratory of mechanics, Modelling and Production, National school of Engineers of Sfax, Sfax, Tunisia
autor
  • Laboratory of mechanics, Modelling and Production, National school of Engineers of Sfax, Sfax, Tunisia
autor
  • Laboratory of mechanics, Modelling and Production, National school of Engineers of Sfax, Sfax, Tunisia
autor
  • Laboratory of mechanics, Modelling and Production, National school of Engineers of Sfax, Sfax, Tunisia
Bibliografia
  • 1. Blankenship G.W., Singh R., 1995, A new gear mesh interface dynamic model to predict multidimensional force coupling and excitation, Mechanism and Machine Theory, 30, 1, 43-57
  • 2. Choy K., Tu Y.K., Savage M., Townsend D.P., 1991, Vibration signature and modal analysis of multi-stage gear transmission, Journal of the Franklin Institute, 328, 2/3, 281-298
  • 3. Eritenel T., Parker R.G., 2009, Modal properties of three-dimensional helical planetary gears, Journal of Sound and Vibration, 325, 397-420
  • 4. Gosselin C., Cloutier L., Nguyen Q.D., 1995, A general formulation for the calculation of the load sharing and transmission error under load of spiral bevel and hypoid gears, Mechanism and Machine Theory, 30, 3, 433-450
  • 5. Guo Y., Parker R.G., 2010, Sensitivity of general compound planetary gear natural frequencies and vibration modes to modal parameters, Journal of Vibration and Acoustics, 132, 1
  • 6. Habib R., Chaari F., Fakhfakh T., Haddar M., 2005, Three dimensional model for a helical planetary gear train vibration analysis, International Journal of Engineering Simulation, 6, 3, 32-38
  • 7. Hammami A. Del Rincon A.F., Rueda F.V., Chaari F., Haddar M., 2015, Modal analysis of back-to-back planetary gear: experiments and correlation against lumped-parameter model, Journal of Theoretical and Applied Mechanics, 53, 1, 125-138
  • 8. Kahraman A., 1994a, Dynamics of a multi-mesh helical gear train, ASME Journal of Mechanical Design, 116, 706-712
  • 9. Kahraman A., 1994b, Natural modes of planetary gear trains, Journal of Sound and Vibration, 173, 125-130
  • 10. Kahraman A., 1994c, Planetary gear train dynamics, ASME Journal of Mechanical Design, 116, 713-720
  • 11. Karray M., Chaari F., Viadero F., del Rincon A.F., Haddar M., 2013, Dynamic response of single stage bevel gear transmission in presence of local damage, The 4th European Conference on Mechanism Science, EUCOMES’2012, Spain, New Trends in Mechanism and Machine Science, Mechanisms and Machine Science, 7, 2013, 337-345
  • 12. Lin J., Parker R.G., 1999a, Analytical characterization of the unique properties of planetary gear free vibration, Journal of Vibration and Acoustics, 121, 3, 316-321
  • 13. Lin J., Parker R.G., 1999b, Sensitivity of planetary gear natural frequencies and vibration modes to model parameters, Journal of Sound and Vibration, 228, 1, 109-128
  • 14. Lin J., Parker R.G., 2000, Structured vibration characteristics of planetary gears with unequally spaced planets, Journal of Sound and Vibration, 233, 5, 921-928
  • 15. Lin J., Parker R.G., 2004, Mesh phasing relationships in planetary and epicyclic gears, Journal of Mechanical Design, 126, 365-370
  • 16. Ozguven H.N., Houser D.R., 1988a, Dynamic analysis of high speed gears by using loaded static transmission error, Journal of Sound and Vibration, 125, 71-83
  • 17. Ozguven H.N., Houser D.R., 1988b, Mathematical models used in gear dynamics – a review, Journal of Sound and Vibration, 121, 383-411
  • 18. Rusinski E., Harnatkiewicz P., Kowalczyk M., Moczko P., 2010, Examination of the causes of a bucket wheel fracture in a bucket wheel excavator, Engineering Failure Analysis, 17, 1300-1312
  • 19. Seager D.L., 1975, Conditions for the neutralization of excitation by the teeth in epicyclic gearing, Journal of Mechanical Engineering Science, 17, 5, 293-298
  • 20. Sun W., Ding X., Wei J., Hu X., Wang Q., 2014, An analyzing method of coupled modes in multi-stage planetary gear system, International Journal of Precision Engineering and Manufacturing, 15, 11, 2357-2366
  • 21. Velex P., Maatar M., 1996, A mathematical model for analyzing the influence of shape deviations and mounting errors on gear dynamic behaviour, Journal of Sound and Vibration, 191, 629-660
  • 22. Wu X., Parker R.G., 2008, Modal properties of planetary gears with an elastic continuum ring gear, Journal of Applied Mechanics, 75, 3, 1-10
  • 23. Zhang L., Wang Y., Wu K., Sheng R., Huang Q., 2016, Dynamic modeling and vibration characteristics of a two-stage closed-form planetary gear train, Mechanism and Machine Theory, 97, 12-28
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8f09a233-59e7-41a6-bdbc-2c72bcf4cfaf
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