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      KCI등재 SCIE SCOPUS

      Vibration suppression in ultrasonic machining described by non-linear differential equations

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      https://www.riss.kr/link?id=A103790146

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      Vibrations are usually undesired phenomena as they may cause damage or destruction of the system. However, sometimes they are desirable, as in ultrasonic machining (USM). In such case, the problem is a complicated one, as it is required to reduce the vibration of the machine head and have reasonable amplitude for the tool. In the present work, the coupling of two non-linear oscillators of the tool holder and tool representing ultrasonic cutting process is investigated. This leads to a two-degree-of-freedom system subjected to multi-external excitation force. The aim of this work is to control the tool holder behavior at simultaneous primary and internal resonance condition and have high amplitude for the tool. Multiple scale perturbation method is applied to obtain a solution up to the second order approximations.

      Other different resonance cases are reported and studied numerically. The stability of the system is investigated applying both phase-plane and frequency response techniques. The effects of the different parameters of the tool on the system behavior are studied numerically. Comparison with the available published work is reported.
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      Vibrations are usually undesired phenomena as they may cause damage or destruction of the system. However, sometimes they are desirable, as in ultrasonic machining (USM). In such case, the problem is a complicated one, as it is required to reduce the ...

      Vibrations are usually undesired phenomena as they may cause damage or destruction of the system. However, sometimes they are desirable, as in ultrasonic machining (USM). In such case, the problem is a complicated one, as it is required to reduce the vibration of the machine head and have reasonable amplitude for the tool. In the present work, the coupling of two non-linear oscillators of the tool holder and tool representing ultrasonic cutting process is investigated. This leads to a two-degree-of-freedom system subjected to multi-external excitation force. The aim of this work is to control the tool holder behavior at simultaneous primary and internal resonance condition and have high amplitude for the tool. Multiple scale perturbation method is applied to obtain a solution up to the second order approximations.

      Other different resonance cases are reported and studied numerically. The stability of the system is investigated applying both phase-plane and frequency response techniques. The effects of the different parameters of the tool on the system behavior are studied numerically. Comparison with the available published work is reported.

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      참고문헌 (Reference)

      1 Y.A. Amer, "Vibration control of ultrasonic cutting via dynamic absorber" 34 (34): 1328-1345, 2007

      2 M. Eissa, "Vibration and chaos control in I.C engines subject to harmonic torque via non-linear absorbers. ISMV-2000" 2000

      3 T.Y. Shen, "Torsional vibration control of a shaft through active constrained layer damping treatments" 119 : 504-511, 1997

      4 Cheng-Tang, Lee, "Sub-harmonic vibration absorber for rotating machinery" 119 : 590-605, 1997

      5 M.S. El Nachie, "Stress, stability and chaos. Mc Graw-Hill International Editions" McGraw–Hill 1992

      6 M. Eissa, "Stability and control of non-linear torsional vibrating systems. Faculty of Engineering Alexandria University" 41 (41): 343-353, 2002

      7 M. Eissa, "Saturation, stability and resonance of nonlinear systems" 356 : 341-358, 2005

      8 M.P. Cartmell, "Performance enhancement of an auto-parametric vibration absorber by means of computer control" 177 (177): 173-195, 1994

      9 M. Eissa, "Part II, Multiabsorbers for vibration control of non-linear structures to harmonic excitations" 2000

      10 M. Eissa, "Part I, Multiabsorbers for vibration control of non-linear structures to harmonic excitations" 2000

      1 Y.A. Amer, "Vibration control of ultrasonic cutting via dynamic absorber" 34 (34): 1328-1345, 2007

      2 M. Eissa, "Vibration and chaos control in I.C engines subject to harmonic torque via non-linear absorbers. ISMV-2000" 2000

      3 T.Y. Shen, "Torsional vibration control of a shaft through active constrained layer damping treatments" 119 : 504-511, 1997

      4 Cheng-Tang, Lee, "Sub-harmonic vibration absorber for rotating machinery" 119 : 590-605, 1997

      5 M.S. El Nachie, "Stress, stability and chaos. Mc Graw-Hill International Editions" McGraw–Hill 1992

      6 M. Eissa, "Stability and control of non-linear torsional vibrating systems. Faculty of Engineering Alexandria University" 41 (41): 343-353, 2002

      7 M. Eissa, "Saturation, stability and resonance of nonlinear systems" 356 : 341-358, 2005

      8 M.P. Cartmell, "Performance enhancement of an auto-parametric vibration absorber by means of computer control" 177 (177): 173-195, 1994

      9 M. Eissa, "Part II, Multiabsorbers for vibration control of non-linear structures to harmonic excitations" 2000

      10 M. Eissa, "Part I, Multiabsorbers for vibration control of non-linear structures to harmonic excitations" 2000

      11 M. Eissa, "Optimum working conditions of a non-linear SDOF system to harmonic and multi-parametric excitations" 40 (40): 113-1127, 2005

      12 M. Eissa, "On the saturation Phenomena and resonance of non-linear differential equations" 15 (15): 73-84, 2005

      13 M. Eissa, "On passive and active control of vibrating system" 18 (18): 515-537, 2005

      14 A.H. Nayfeh, "Nonlinear oscillations" John Wiley 1979

      15 K.R. Asfar, "Effect of non-linearities in elastomeric material dampers on torsional vibration control" 27 (27): 947-954, 1992

      16 A.F. El-Bassiouny, "Effect of non-linearities in elastomeric material dampers on torsional oscillation control" 162 : 835-854, 2005

      17 P. Woafa, "Dynamics of two nonlinearity coupled oscillators" 57 : 195-200, 1998

      18 M. Eissa, "Comparison between passive and active control of non-linear dynamical system" 23 (23): 139-161, 2006

      19 M. Eissa, "Comparison between active and passive vibration control of non-linear simple pendulum, Part II: Longitudinal tuned absorber G ∂ &&n and negative G∂ n feedback" 11 (11): 151-162, 2006

      20 F.C. Lim, "A preliminary investigation into optimizing the response of vibrating systems used for ultrasonic cutting" 272 : 1047-1069, 2004

      21 M. Eissa, "A Comparison between active and passive vibration control of non-linear simple pendulum, Part I: Transversally tuned absorber and negative G∂ & n feedback" 11 (11): 137-149, 2006

      22 M. Eissa, "1:4 Internal resonance active absorber for non-linear vibrating system" 28 (28): 515-537, 2006

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