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Vibration Suppression of a Slender Boring Bar by an Impact Damper


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1 Indian Institute of Technology Kanpur, Kanpur, India., India
     

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This paper presents an analytical model to characterize the role of an impact damper in suppressing vibrations of slender boring bars that are used in deep hole boring processes. The boring bar is modelled as a Euler-Bernoulli beam that interacts with a ring impact damper through a spring and damper combine. Parametric analysis suggests that smaller gaps in between the bar and the damper result in higher reduction in the vibration response. Analysis also suggests that for maximum vibration suppressions the damper’s stiffness should be less than that of the bar, and its damping should be greater. Though the vibration suppression capacity of this impact damped boring bar is found slightly wanting when compared to a boring bar damped with an optimally tuned mass damper, model-based analysis as is presented herein is new and generalized and can hence guide further design and development of optimal impact damped boring bars.

Keywords

Impact Damper, Boring Bar, Vibration Suppression, Chatter.
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  • Cheng, C. C., & Wang, J. Y. (2003). Free vibration analysis of a resilient impact damper. International Journal of Mechanical Sciences, 45(4), 589-604.
  • Ema, S., & Marui, E. (2000). Suppression of chatter vibration of boring tools using impact dampers. International Journal of Machine Tools and Manufacture, 40(8):1141-1156
  • Geng, X., Ding, H., Wei, K., & Chen, L. (2020). Suppression of multiple modal resonances of a cantilever beam by an impact damper. Applied Mathematics and Mechanics, 41(3), 383-400.
  • Hagedorn, P., & DasGupta, A. (2007). Vibrations and waves in continuous mechanical systems. England: John Wiley & Sons, Ltd.
  • Ibrahim, R. A. (2009). Vibro-Impact Dynamics. LNACM - Lecture Notes in Applied and Computational Mechanics, 43.
  • Masri, S. F. (1970). General motion of impact dampers.The Journal of the Acoustical Society of America, 47(1B), 229-37.
  • Munoa, J., Beudaert, X., Dombovari, Z., Altintas, Y., Budak, E., & Brecher, C. (2016). Chatter suppression techniques in metal cutting. CIRP Annals, 65(2), 785-808.
  • Patel, A., Talaviya, D., Law, M., & Wahi, P. (2022). Optimally tuning an absorber for a chatter-resistant rotating slender milling tool holder. Journal of Sound and Vibration, 520, 116594. 10.1016/j.jsv.2021.116594.
  • Patel, A., Yadav, A., Law, M., Bhattacharya, B., & Wahi, P. (2022). Damped chatter resistant boring bar integrated with an absorber working in conjunction with an eddy current damper. Journal of Vibration Engineering & Technologies.
  • Thekkepat, A. A., Devadula, S., & Law, M. (2021). Identifying joint dynamics in bolted cantilevered Systems Under Varying Tightening Torques and Torsional Excitations. Journal of Vibration Engineering & Technologies.
  • Thomas, M.D., Knight, W.A., & Sadek, M.M. (1973). The impact damper boring bar and its performance when cutting. Proc Thirteen Int Mach Tool Des Res Conf. 47-51.
  • Yadav, A., Talaviya, D., Bansal, A., & Law, M. (2020). Design of chatter-resistant damped boring bars using a receptance coupling approach. Journal of Manufacturing Material Processing, 4(2), 53.

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  • Vibration Suppression of a Slender Boring Bar by an Impact Damper

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Authors

Arjun Patel
Indian Institute of Technology Kanpur, Kanpur, India., India
Mohit Law
Indian Institute of Technology Kanpur, Kanpur, India., India
Pankaj Wahi
Indian Institute of Technology Kanpur, Kanpur, India., India

Abstract


This paper presents an analytical model to characterize the role of an impact damper in suppressing vibrations of slender boring bars that are used in deep hole boring processes. The boring bar is modelled as a Euler-Bernoulli beam that interacts with a ring impact damper through a spring and damper combine. Parametric analysis suggests that smaller gaps in between the bar and the damper result in higher reduction in the vibration response. Analysis also suggests that for maximum vibration suppressions the damper’s stiffness should be less than that of the bar, and its damping should be greater. Though the vibration suppression capacity of this impact damped boring bar is found slightly wanting when compared to a boring bar damped with an optimally tuned mass damper, model-based analysis as is presented herein is new and generalized and can hence guide further design and development of optimal impact damped boring bars.

Keywords


Impact Damper, Boring Bar, Vibration Suppression, Chatter.

References