The dynamics of a two-degree-of-freedom nonlinear system consisting of a grounded Duffing oscillator coupled to an essentially nonlinear attachment is examined in the present study. The underlying Hamiltonian system is first considered, and its nonlinear normal modes are computed using numerical continuation and gathered in a frequency-energy plot. Based on these results, the damped system is then considered, and the basic mechanisms for energy transfer and dissipation are analyzed.
1.
Frahm
, H.
, 1911, “A Device for Damping Vibrations of Bodies
,” US Patent No. 989,958.2.
Den Hartog
, J. P.
, 1985, Mechanical Vibrations
(Dover Books on Engineering
), 4th ed., Dover
, New York
.3.
Gendelman
, O. V.
, 2001, “Transition of Energy to a Nonlinear Localized Mode in a Highly Asymmetric System of Two Oscillators
,” Nonlinear Dyn.
0924-090X, 25
, pp. 237
–253
.4.
Gendelman
, O. V.
, Manevitch
, L. I.
, Vakakis
, A. F.
, and McCloskey
, R.
, 2001, “Energy Pumping in Nonlinear Mechanical Oscillators: Part I—Dynamics of the Underlying Hamiltonian Systems
,” ASME J. Appl. Mech.
0021-8936, 68
, pp. 34
–41
.5.
Vakakis
, A. F.
, and Gendelman
, O. V.
, 2001, “Energy Pumping in Nonlinear Mechanical Oscillators: Part II—Resonance Capture
,” J. Sound Vib.
0022-460X, 68
, pp. 42
–48
.6.
Vakakis
, A. F.
, 2001, “Inducing Passive Nonlinear Energy Sinks in Vibrating Systems
,” ASME J. Vibr. Acoust.
0739-3717, 123
, pp. 324
–332
.7.
Kerschen
, G.
, Vakakis
, A. F.
, Lee
, Y. S.
, McFarland
, D. M.
, Kowtko
, J. J.
, and Bergman
, L. A.
, 2005, “Energy Transfers in a System of Two Coupled Oscillators With Essential Nonlinearity: 1:1 Resonance Manifold and Transient Bridging Orbits
,” Nonlinear Dyn.
0924-090X, 42
, pp. 283
–303
.8.
McFarland
, D. M.
, Bergman
, L. A.
, and Vakakis
, A. F.
, 2005, “Experimental Study of Nonlinear Energy Pumping Occurring at a Single Fast Frequency
,” Int. J. Non-Linear Mech.
0020-7462, 40
, pp. 891
–899
.9.
Kerschen
, G.
, McFarland
, D. M.
, Kowtko
, J. J.
, Lee
, Y. S.
, Bergman
, L. A.
, and Vakakis
, A. F.
, 2007, “Experimental Demonstration of Transient Resonance Capture in a System of Two Coupled Oscillators With Essential Stiffness Nonlinearity
,” J. Sound Vib.
0022-460X, 299
, pp. 822
–838
.10.
Gendelman
, O. V.
, Gorlov
, D. V.
, Manevitch
, L. I.
, and Musienko
, A. I.
, 2005, “Dynamics of Coupled Linear and Essentially Nonlinear Oscillators With Substantially Different Masses
,” J. Sound Vib.
0022-460X, 286
, pp. 1
–19
.11.
Lee
, Y. S.
, Kerschen
, G.
, Vakakis
, A. F.
, Panagopoulos
, P. N.
, Bergman
, L. A.
, and McFarland
, D. M.
, 2005, “Complicated Dynamics of a Linear Oscillator With a Light, Essentially Nonlinear Attachment
,” Physica D
0167-2789, 204
, pp. 41
–69
.12.
Kerschen
, G.
, Lee
, Y. S.
, Vakakis
, A. F.
, McFarland
, D. M.
, and Bergman
, L. A.
, 2006, “Irreversible Passive Energy Transfer in Coupled Oscillators With Essential Nonlinearity
,” SIAM J. Appl. Math.
0036-1399, 66
, pp. 648
–679
.13.
Gourdon
, E.
, and Lamarque
, C. H.
, 2006, “Nonlinear Energy Sinks With Uncertain Parameters
,” ASME J. Comput. Nonlinear Dyn.
1555-1423, 1
, pp. 187
–195
.14.
Cochelin
, B.
, Herzog
, P.
, and Mattei
, P. O.
, 2006, “Experimental Evidence of Energy Pumping in Acoustics
,” C. R. Mec.
1631-0721, 334
, pp. 639
–644
.15.
Dantas
, M.
, and Balthazar
, J.
, 2008, “On Energy Transfer Between Linear and Nonlinear Oscillators
,” J. Sound Vib.
0022-460X, 315
, pp. 1047
–1070
.16.
Lee
, Y. S.
, Vakakis
, A. F.
, Bergman
, L. A.
, McFarland
, D. M.
, and Kerschen
, G.
, 2007, “Suppression of Aeroelastic Instability by Means of Broadband Passive Targeted Energy Transfers, Part I: Theory
,” AIAA J.
0001-1452, 45
, pp. 693
–711
.17.
Viguié
, R.
, Kerschen
, G.
, Golinval
, J. -C.
, McFarland
, D. M.
, Bergman
, L. A.
, and van de Wouw
, N.
, 2009, “Using Passive Nonlinear Targeted Energy Transfer to Stabilize Drill-String System
,” Mech. Syst. Signal Process.
0888-3270, 23
, pp. 148
–169
.18.
Peeters
, M.
, Viguié
, R.
, Sérandour
, G.
, Kerschen
, G.
, and Golinval
, J. -C.
, 2009, “Nonlinear Normal Modes, Part 2: Toward a Practical Computation Using Numerical Continuation Techniques
,” Mech. Syst. Signal Process.
0888-3270, 23
, pp. 195
–216
.19.
Vakakis
, A.
, Gendelman
, O.
, Bergman
, L.
, McFarland
, D.
, Kerschen
, G.
, and Lee
, Y.
, 2008, Nonlinear Targeted Energy Transfer in Mechanical and Structural Systems
, Springer
, Dordrecht, The Netherlands
.20.
Quinn
, D. D.
, Gendelman
, O. V.
, Kerschen
, G.
, Themistoklis
, G.
, Bergman
, L. A.
, and Vakakis
, A. F.
, 2008, “Efficiency of Targeted Energy Transfers in Coupled Nonlinear Oscillators Associated With 1:1 Resonance Captures: Part I
,” J. Sound Vib.
0022-460X, 311
, pp. 1228
–1248
.21.
Seydel
, R.
, 1994, Practical Bifurcation and Stability Analysis From Equilibrium to Chaos
, 2nd ed., Springer-Verlag
, Berlin
.22.
Nayfeh
, A. H.
, and Balachandran
, B.
, 1995, Applied Nonlinear Dynamics. Analytical, Computational, and Experimental Methods
, Wiley-Interscience
, Chichester, UK
.Copyright © 2009
by American Society of Mechanical Engineers
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