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Abstrakty
Planetary helical gears are widely used in various transmissions such as helicopters, automobiles and heavy industry due to their substantial particularities of compactness, large torque-to-weight ratio and weak bearing loads. Their efficiency is affected by manufacturing errors and tooth faults. To scrutinize the effect of these defects, a three dimensional helical planetary gear model was developed. The energetic Lagrange formulation was used to recover the equations of motion and the modal characteristics of the system. The dynamic response was computed by an iterative spectral method. Eccentricity, profile error and tooth pitting occurring during running were modelled. The effects of these defects on the dynamic response of the planetary gear were discussed in order to extract their features.
Czasopismo
Rocznik
Tom
Strony
5--32
Opis fizyczny
Bibliogr. 11 poz., tab., wykr.
Twórcy
autor
- National School of Engineers of Sfax, Tunisia
autor
- National School of Engineers of Sfax, Tunisia
autor
- National School of Engineers of Sfax, Tunisia
autor
- National School of Engineers of Sfax, Tunisia
Bibliografia
- 1. Chaari, F., Hbaieb, R., Fakhfakh, T. and Haddar, M., 2004, Influence of manufacturing errors on the dynamical behavior of planetary gear. International Journal of Advanced Manufacturing Technology. Accepted for publication.
- 2. Choy, F.K., Polychuk, V., Zakarajsek, J.J., Handschuh, R.F., Townsend, D.P., 1996, Analysis of the Effects of Surface Pitting and Wear on the Vibrations of a Gear Transmission System, Tribology International, 29, 77-83.
- 3. Hidaka, T., Terauchi, Y., Fuji, M., 1980, Analysis of Dynamic Tooth Load on Planetary Gear. Bulletin of the JSME, 23, 315-323.
- 4. Kahraman, A., 1994, Dynamics of a Multi-Mesh Helical Gear Train. Journal of mechanical design, 116, 706-712.
- 5. Kahraman, A., 1994, Planetary Gear Train Dynamics, ASME Journal of Mechanical Design, 116, 713-720.
- 6. Lin, J., Parker, R.G., 1999, Analytical Characterization of the Unique Properties of Planetary Gear Free Vibration. Journal of Vibration and Acoustics, 121, 316-321.
- 7. Ma, P., Botman, M., 1984, Load Sharing in a Planetary Gear Stage in the Presence of Gear Errors and Misalignment. Journal of Mechanisms, Transmissions and Automation in Design, 104, 1-7.
- 8. Maatar, M., Velex, P., 1995, An analytical expression for the time varying contact length in perfect cylindrical gears: some possible applications in gear dynamics. Journal of mechanical design, 118, 586-589.
- 9. Perret-Liaudet, J., 1996, An original method for computing the response of a parametrically excited forced system. Journal of Sound and Vibration, 196, 165-177.
- 10. Saada, A., Velex, P., 1992, An Extended Model for the Analysis of the Dynamic Behaviour of planetary trains. Proceedings of the ASME International Power Transmission and Gearing Conference, 43, 513-520.
- 11. Yesilyurt, I., Gu, F., Andrew, D.B., 2003, Gear tooth stiffness reduction measurement using modal analysis and its use in wear fault severity assessment of spur gears. NDT & E International, 36, 357-372.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWA0-0006-0077