Nonlinear dynamic analysis of defective rolling element bearing using Higuchi’s fractal dimension View Full Text


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Article Info

DATE

2019-03-11

AUTHORS

Aditya Sharma, M Amarnath, Pavan Kumar Kankar

ABSTRACT

In the present study, localized surface defects are modelled in inner race and outer race, and nonlinear dynamic behaviour of the system has been observed and quantified using Higuchi’s fractal dimensions. The Hertzian contact among the rollers and races, clearance and nonlinear damping are considered as sources of nonlinearity. Dynamic responses show system behaviour as periodic, quasi-periodic and chaotic at different rotor speeds. The onset of chaotic motion is identified using Poincaré maps and Higuchi’s fractal dimensions. The system shows low peak-to-peak amplitude of vibration responses at higher speeds in the presence of defects. Results also indicate that Higuchi’s fractal dimensions can be effectively used as a diagnostic tool for health monitoring. More... »

PAGES

76

References to SciGraph publications

  • 2015-05-26. Effect of Unbalanced Rotor on the Dynamics of Cylindrical Roller Bearings in PROCEEDINGS OF THE 9TH IFTOMM INTERNATIONAL CONFERENCE ON ROTOR DYNAMICS
  • 2007-12-15. Effect of localized faults on chaotic vibration of rolling element bearings in NONLINEAR DYNAMICS
  • 2012-01-13. Vibration based performance prediction of ball bearings caused by localized defects in NONLINEAR DYNAMICS
  • Identifiers

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    http://scigraph.springernature.com/pub.10.1007/s12046-019-1060-x

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    http://dx.doi.org/10.1007/s12046-019-1060-x

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