We investigate the nonlinear dynamics and stability of a rotating system with an electromagnetic noncontact eddy-current damper. The damper is modeled by a thin nonmagnetic disk that is translating and rotating with a shaft in an air gap of a direct current electromagnet. The damper dissipates energy of the rotating system lateral vibration through induced eddy-currents. The dynamical system also includes a cubic restoring force representing nonlinear behavior of rubber o-rings supporting the shaft. The equilibrium state of the balanced rotating system with an eddy-current damper becomes unstable via a Hopf bifurcation and exact solutions for the limit cycle radius and frequency of the self-excited oscillation are obtained analytically. Forced vibration induced by the rotating system mass imbalance is also investigated analytically and numerically. System response includes periodic and quasiperiodic solutions. Stability of the periodic solutions obtained from the balanced self-excited motion and the imbalance forced response is analyzed by use of Floquet theory. This analysis enables an explanation of the nonlinear dynamics and stability phenomena documented for rotating systems controlled by electromagnetic eddy-current dampers.

Issue Section:
Research Papers
Topics:
Dampers, Dynamics (Mechanics), Eddies (Fluid dynamics), Stability, Nonlinear dynamics, Vibration, Bifurcation, Disks, Dynamic systems, Electromagnets, Equilibrium (Physics), Limit cycles, Oscillations, Rubber, Seals
1.
Choi
Y-S.
, and
Noah
S. T.
,
1987
, “
Nonlinear Steady-State Response of a Rotor-Support System
,”
ASME JOURNAL OF VIBRATION, ACOUSTICS, STRESS, AND RELIABILITY IN DESIGN
, Vol.
109
, No.
3
, pp.
255
261
.
2.
Choi
S-K.
, and
Noah
S. T.
,
1994
, “
Mode-locking and Chaos in a Jeffcott Rotor With Bearing Clearances
,”
ASME JOURNAL OF APPLIED MECHANICS
, Vol.
61
, No.
2
, pp.
131
138
.
3.
Frederick
J. R.
, and
Darlow
M. S.
,
1994
, “
Operation of an Electromagnetic Eddy-Current Damper With a Supercritical Shaft
,”
ASME JOURNAL OF VIBRATION AND ACOUSTICS
, Vol.
116
, No.
4
, pp.
578
580
.
4.
Genta, G., Delprete, C. Tonoli, A., and Rava, E., and Mazzocchetti, L., 1992, “Analytical and Experimental Investigation of a Magnetic Radial Passive Damper,” Proceedings of the Third International Symposium on Magnetic Bearings, pp. 255–264.
5.
Gunter, E. J., Humphris, R. R., and Severson, S. J., 1983, Design Study of Magnetic Eddy-Current Vibration Dampers for Application to Cryogenic Turbo-machinery, University of Virginia Report UVA/528210/MAE84/101, NASA Grant NAG-3-263.
6.
Ehrich
F. F.
,
1991
, “
Some Observations of Chaotic Vibration Phenomena in High-Speed Rotordynamics
,”
ASME JOURNAL OF VIBRATION AND ACOUSTICS
, Vol.
113
, No.
1
, pp.
50
57
.
7.
Ehrich
F. F.
,
1992
, “
Observations of Subcritical Superharmonic and Chaotic Response in Rotordynamics
,”
ASME JOURNAL OF VIBRATION AND ACOUSTICS
, Vol.
114
, No.
1
, pp.
93
100
.
8.
Ehrich
F. F.
,
1995
, “
Nonlinear Phenomena in Dynamic Response of Rotors in Anisotropic Mounting Systems
,”
ASME Special Combined Issue of the Journal of Mechanical Design and the JOURNAL OF VIBRATION AND ACOUSTICS
, Vol.
117(B)
, pp.
154
161
.
9.
Ishida
Y.
,
Nagasaka
I.
,
Inoue
T.
, and
Lee
S.
,
1996
, “
Forced Oscillations of a Vertical Continuous Rotor with geometric Nonlinearity
,”
Nonlinear Dynamics
, Vol.
II
. pp.
107
120
.
10.
Kligerman, Y., Grushkevich, A., Darlow, M. S., and Zuckerberger, A., 1995, “Analysis and Experimental Evaluation of Inherent Instability in Electromagnetic Eddy-Current Dampers Intended for Reducing Lateral Vibration of Rotating Machinery,” Proceedings of ASME 15th Biennial Conference on Vibration and Noise, Boston, MA, pp. 1301–1309.
11.
Kligerman Y., Gottlieb, O., and Darlow, M., 1997, “Nonlinear Vibration of a Rotating System with an Electromagnetic Damper and Cubic Restoring Force,” Journal of Vibration and Control in press.
12.
Maxfield, B. W., Kuramoto, A., Hulbert, J. K., and Smiley, P., 1989, “Electromagnetic Vibration Dampers,” Proceedings of Damping ’89 at West Palm Beach, Fl, Vol. III, pp. ICD-1–ICD-11.
13.
Morii, S., Nagai, N., Katayama, K., and Sueoka, A., 1996, “Stability Analysis of Rotors Operating in Magnetic Field,” IMechE (Institution of Mechanical Engineers) Conference Transactions of the Sixth International Conference on Vibrations in Rotating Machinery, London, pp. 331–340.
14.
Nagaya
K.
,
Kojima
H.
,
Karube
Y.
, and
Kibayashi
H.
,
1984
, “
Braking Forces and Damping Coefficients of Eddy-current Brakes Consisting of Cylindrical Magnets and Plate Conductors of Arbitrary Shape
,”
IEEE Transactions on Magnetics
, Vol.
Mag-20
, No.
6
, pp.
2136
2145
.
15.
Nayfeh, A. H., and Balachandran, B., 1995, Applied Nonlinear Dynamics, Wiley, New York.
16.
Schieber, D., 1986, Electromagnetic Induction Phenomena, Springer Series in Electrophysics, V. 16, Springer-Verlag, Berlin, New-York.
17.
Shaw
J.
, and
Shaw
S. W.
,
1989
, “
Instabilities and Bifurcations in a Rotating shaft
,”
Journal of Sound and Vibration
, Vol.
132
, No.
2
, pp.
227
244
.
18.
Shaw
J.
, and
Shaw
S. W.
,
1991
, “
Non-Linear Resonance of an Unbalanced Rotating Shaft with Internal Damping
,”
Journal of Sound and Vibration
, Vol.
147
, No.
3
, pp.
435
451
.
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