Vibration Analysis of Cracked Structures as a Roving Body Passes a Crack Using the Rayleigh-Ritz Method

  • Sinniah Ilanko School of Engineering, The University of Waikato
  • Yusuke Mochida School of Engineering, The University of Waikato
  • Julian De Los Rois School of Engineering, The University of Waikato
DOI: https://doi.org/10.25042/epi-ije.082018.04
Keywords: Cracked plate; natural frequencies; rayleigh-ritz method; roving mass; vibration

Abstract

The natural frequencies of a cracked plate with a roving mass were computed using the Rayleigh-Ritz Method for various sets of boundary condition. The obtained frequencies exhibit a sudden shift as a roving body crosses a crack. If the crack is only partial and continuity of translation is maintained, then the frequency shift occurs only when the body possesses a rotary inertia. If the crack is a complete one (through thickness) which permits differential translation to occur on either side of the crack, a particle having mass only (translatory inertia) is sufficient to cause a sudden shift. There is no need for a rotary inertia. This is potentially useful in detecting cracks in structures, as it is possible to track the changes in the natural frequencies of a structure as a test body such as a vehicle on a bridge moves and identify points where sudden frequency changes occur.

Published
2018-08-30
How to Cite
[1]
S. Ilanko, Y. Mochida, and J. De Los Rois, “Vibration Analysis of Cracked Structures as a Roving Body Passes a Crack Using the Rayleigh-Ritz Method”, EPI International Journal of Engineering, vol. 1, no. 2, pp. 30-34, Aug. 2018.
Issue
Vol 1 No 2 (2018): Volume 1 Number 2, August 2018 with Special Issue on Railway Engineering
Section
Articles