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Influence of the blade length on natural frequencies and modes shapes of two bladed rigid discs on the shaft

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The dynamic behaviour of a rotor consisting of two bladed discs on a solid shaft is considered. The effect of shaft flexibility on the dynamic characteristics of the bladed discs and the coupling effects between the shaft and bladed disc modes are investigated. Results presented for various cases with differing blades flexibility show cleary the coupling effects in a bladed disc-shaft system. Calculated natural frequencies obtained from blade, shaft, bladed disc and shaft with two discs are checked to discover resonance conditions and the coupling effects. The calculations show the influence of the shaft on the natural frequencies of the bladed discs up to one nodal diameter frequencies. The torsional frequency of the shaft with two discs is coupled with the zero nodal diameters modes of the single bladed discs. The bending modes of the shaft are coupled with one nodal diameter modes of the bladed discs. It is shown that including the shaft in the bladed discs model is important from the designer's point of view and can change the spectrum of frequencies considerably.
Słowa kluczowe
EN
Rocznik
Tom
Strony
177--190
Opis fizyczny
Bibliogr. 11 poz., rys., tab.
Twórcy
autor
  • Depatrment of Dynamics of Machines, Institute of Fluid Flow Machinery, Polish Academy of Sciences, Fiszera 14, 80-231 Gdańsk, Poland, z3@imp.gda.pl
Bibliografia
  • [1] Berger H., Kulig T.S.: Simulation models for calculating the torsional uibra-tions of large turbinę-generator units after electrical system faults, Simens Forsch. u. Entwickl. - Ber., Bd 10, No. 4, 1981, Springer-Verlag, (1981), 237-245.
  • [2] Bólcs A.and Fransson T.H.: Aeroelasticity in turbomachines: comparison of theoretical and experimental cascade results, Communication du LTAT -EPFL Switzerland, 1986, No. 13, 174.
  • [3] Chivens D.R., Nelson H.D.: The natural freęuency and critical speed of ro-tating flexible Shaft-Disk System, J. of Eng. for Ind., (1975), 881-886.
  • [4] Rządkowski R.: Dynamics of Rotor Steam Turbinę Rotor Blading, Part Two, Bladed Discs, Maszyny Przepływowe, Tom 22, Ossolineum, Wrocław 1998.
  • [5] Dubi geon S., Michoń J.C.: Modes for deformable periodic cyclic symmetric system driven in uniform rotation by a flexible shaft, J. of Sound and Vibration, 106(1),(1986), 53-70.
  • [6] Huang S.C., Ho K.B.: Coupled shaft-torsion and blade-bending uibrations of a rotating shaft-disk-blade unit, Trans, of the ASME, Vol. 118(1996), 100-106.
  • [7] Jacąuet-Richardet G., Ferraris G., Rieutord P.: Freąuencies and modes of rotating flezible bladed disc-shaft assemblies: a global cyclic symmetry ap-proach, J. of Sound and Yibration, 191(5), (1996), 901-915.
  • [8] Kanki H., Yammamoto Y.: Experimental verification of blades-disc-rotc coupled torsional vibration for large turbine, Proc. of 12th Biennial ASME Conf. on Mech. Vibration and Noise, Montreal, Canada, Rotating Machinę"? Dynamics, DE-Vol.l8-l, (1989), 17-21.
  • [9] Khader N., Masoud S.: Vibration of mistuned bladed disks supported by flezible continuous shafts, J. of Sound and Vibration, 149(3), (1991), 471¬488.
  • [10] Okabe A., Kaneeko R., Matsushita O., Namura K., Yoshida T.: Coupled vi-bration analysis: torsional uibration of turbine-generator-blade coupled system, Proc. of 12th Biennial ASME Conf. on Mech. Vibration and Noise, Montreal, Canada, Rotating Machinery Dynamics, DE-Vol. 18-1, (1989) 135-140
  • [11] Szolc T., Rządkowski R., Kiciński J.: Coupled vibration analysis of tht journal-bearing/rotor-shaft/bladed-disk system by means of the three-dimensional mechanical model, Proc. of Schwingungen in rotierendf-Maschinen Conf. (SIRM'03), Ed. by the Verlag VIEWEG, Darmstadt, G many, 2003, 185-192.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWM2-0060-0058
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