Techno Press
You logged in as Techno Press

Smart Structures and Systems
  Volume 33, Number 2, February 2024 , pages 165-175
DOI: https://doi.org/10.12989/sss.2024.33.2.165
 

 open access

Two-stage crack identification in an Euler-Bernoulli rotating beam using modal parameters and Genetic Algorithm
Belén Muñoz-Abella, Lourdes Rubio and Patricia Rubio

 
Abstract
    Rotating beams play a crucial role in representing complex mechanical components that are prevalent in vital sectors like energy and transportation industries. These components are susceptible to the initiation and propagation of cracks, posing a substantial risk to their structural integrity. This study presents a two-stage methodology for detecting the location and estimating the size of an open-edge transverse crack in a rotating Euler-Bernoulli beam with a uniform cross-section. Understanding the dynamic behavior of beams is vital for the effective design and evaluation of their operational performance. In this regard, modal parameters such as natural frequencies and eigenmodes are frequently employed to detect and identify damages in mechanical components. In this instance, the Frobenius method has been employed to determine the first two natural frequencies and corresponding eigenmodes associated with flapwise bending vibration. These calculations have been performed by solving the governing differential equation that describes the motion of the beam. Various parameters have been considered, such as rotational speed, beam slenderness, hub radius, and crack size and location. The effect of the crack has been replaced by a rotational spring whose stiffness represents the increase in local flexibility as a result of the damage presence. In the initial phase of the proposed methodology, a damage index utilizing the slope of the beam's eigenmode has been employed to estimate the location of the crack. After detecting the presence of damage, the size of the crack is determined using a Genetic Algorithm optimization technique. The ultimate goal of the proposed methodology is to enable the development of more suitable and reliable maintenance plans.
 
Key Words
    crack identification; cracked rotating Euler-Bernoulli beam; genetic algorithms; maintenance plans; modal parameters
 
Address
Department of Mechanical Engineering, University Carlos III of Madrid, Av. Universidad 30, 28911, Leganés, Madrid, Spain.
 

Techno-Press: Publishers of international journals and conference proceedings.       Copyright © 2024 Techno Press
P.O. Box 33, Yuseong, Daejeon 305-600 Korea, Tel: +82-42-828-7996, Fax : +82-42-828-7997, Email: admin@techno-press.com