Acta Mechanica Slovaca 2025, 29(1):6-12 | DOI: 10.21496/ams.2025.006

Orbital Analysis of a Breathing Cracked Rotor During its Passage Through the Subcritical Speeds

Otmane Zerrouki^{1, *}, Ahmed Fellah¹, Ahmed Saimi²

¹ Mechanical department, Faculty of science and technology, University of Relizane, Algeria

² IS2M laboratory, Faculty of technology, University of Tlemcen, Algeria

In the present paper, an orbital analysis is conducted to study the effect of a transverse breathing crack on the orbits of the rotor during its passage through the subcritical speeds; this study makes it possible to predict the presence of cracks in rotors. The classical version of the finite element method is used to model the rotor. While, the equation of motion is obtained by the application of the Lagrange equation on the kinetic and deformation energies of the different components of the rotor taking into account the variation of the shaft's stiffness due to the crack, The results are obtained using a Matlab code based on Newmark's beta method, this program allows us to plot the orbits of the rotor centre during its passage through the subcritical speeds.

Keywords: Rotor, Breathing Crack, FEM, Orbit, Subcritical Speed.

Received: September 6, 2024; Revised: February 8, 2025; Accepted: February 28, 2025; Published: March 30, 2025  Show citation