Study of the Stress Intensity Factor of an Unbalanced Rotating Cracked Shaft

Muñoz-Abella, B.; Rubio, L.; Rubio, P.

doi:10.1007/978-94-007-7485-8_49

B. Muñoz-Abella⁵,
L. Rubio⁵ &
P. Rubio⁵

Part of the book series: Mechanisms and Machine Science ((Mechan. Machine Science,volume 17))

3296 Accesses

Abstract

The components of machines very often present defects that can grow to fatigue cracks when they are submitted to the working solicitations. In the case of shaft,this is particularly important because the catastrophic failures can lead to personal injuries or economic problems. When a cracked shaft rotates, the breathing mechanism appears. The crack opens and closes passing from the open state to the close state with a transition that produces a partial opening. The shafts present additionally misalignments or/and unbalances that alter their normal function. In this paper, we present a Finite Element Method (FEM) study of the influence of the eccentricity in the breathing mechanism of a rotating cracked shaft. The classical Jeffcott rotor model has been chosen for this study. To simulate the rotation of the shaft, different angular positions have been considered. The Stress Intensity Factor (SIF) along the crack front during the rotation has been studied considering different angles of eccentricity. The work allows to know the influence of the unbalance of rotating shafts in the crack breathing mechanism, in the values of the Stress Intensity Factor and in the propagation of cracks.

This is a preview of subscription content, log in via an institution to check access.

Access this chapter

Log in via an institution

Chapter: USD 29.95; Price excludes VAT (USA)

eBook: USD 129.00; Price excludes VAT (USA)

Softcover Book: USD 169.99; Price excludes VAT (USA)

Hardcover Book: USD 169.99; Price excludes VAT (USA)

Tax calculation will be finalised at checkout

Purchases are for personal use only

Institutional subscriptions

Preview

Unable to display preview. Download preview PDF.

References

Dimarogonas, A.D., Papadopoulos, C.A.: Vibration of cracked shafts in bending. Journal of Sound and Vibration 91, 583–593 (1983)
Article MATH Google Scholar
Darpe, A.K., Gupta, K., Chawla, A.: Transient response and breathing behaviour of a cracked Jeffcott rotor. Journal of Sound and Vibration 272, 207–243 (2004)
Article Google Scholar
Bachschmid, N., Pennacchi, P., Tanzi, E.: Some remarks on breathing mechanism, on non-linear effects and on slant and helicoidal cracks. Mechanical Systems and Signal Processing 22, 879–904 (2008)
Article Google Scholar
Sekhar, A.S., Prabhu, B.S.: Condition monitoring of crecked rotors throeugh transient response. Mechanism and Machine Theory 33(8), 1167–1275 (1998)
Article MATH Google Scholar
Patel, T.H., Darpe, A.K.: Influence of crack breathing model on nonlinear dynamics of a cracked rotor. Journal of Sound and Vibration 311, 1953–1972 (2008)
Article Google Scholar
Cheng, L., Li, N., Chen, X.F., He, Z.J.: The influence of crack breathing and imbalance orientation angle on the characteristics of the critical speed of a cracked rotor. Journal of Sound and Vibration 330, 2031–2048 (2011)
Article Google Scholar
Rubio, L., Fernández-Sáez, J.: A new efficient procedure to solve the nonlinear dynamics of a cracked rotor. Nonlinear Dynamics 70, 1731–1745 (2012)
MathSciNet Google Scholar
Darpe, A.K., Gupta, K., Chawla, A.: Dynamics of a bowed rotor with a transverse surface crack. Journal of Sound and Vibration 296, 888–907 (2006)
Article Google Scholar
Darpe, A.K.: A novel way to detect trasnverse surface crack in a rotating shaft. Journal of Sound and Vibration 305, 151–171 (2007)
Article Google Scholar
Jun, O.S., Gadala, M.S.: Dynamic behavior analysis of cracked rotor. Journal of Sound and Vibration 309, 210–245 (2008)
Article Google Scholar
Penny, J.E.T., Friswell, M.I.: Simplified modelling of rotor cracks. In: Proceedings of ISMA: International Conference on Noise and Vibration Engineering, vol. 2, pp. 607–615 (2002)
Google Scholar
Rubio, L., Muñoz-Abella, B., Rubio, P., Montero, L.: Influence of the eccentricity in the crack breathing in a rotating shaft. In: Proceedings of ECT 2012: International Conference on Engineering Computational Technology (2012)
Google Scholar

Download references

Author information

Authors and Affiliations

University Carlos III of Madrid, Madrid, Spain
B. Muñoz-Abella, L. Rubio & P. Rubio

Authors

B. Muñoz-Abella
View author publications
You can also search for this author in PubMed Google Scholar
L. Rubio
View author publications
You can also search for this author in PubMed Google Scholar
P. Rubio
View author publications
You can also search for this author in PubMed Google Scholar

Corresponding author

Correspondence to B. Muñoz-Abella .

Editor information

Editors and Affiliations

Mechanical Engineering Department, University of the Basque Country, Bilbao, Spain
Victor Petuya
Mechanical Engineering Department, University of the Basque Country, Bilbao, Spain
Charles Pinto
Mechanical Engineering Faculty, Politehnica University of Timişoara, Timisoara, Romania
Erwin-Christian Lovasz

Rights and permissions

Reprints and permissions

Copyright information

About this paper

Cite this paper

Muñoz-Abella, B., Rubio, L., Rubio, P. (2014). Study of the Stress Intensity Factor of an Unbalanced Rotating Cracked Shaft. In: Petuya, V., Pinto, C., Lovasz, EC. (eds) New Advances in Mechanisms, Transmissions and Applications. Mechanisms and Machine Science, vol 17. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-7485-8_49

Download citation

DOI: https://doi.org/10.1007/978-94-007-7485-8_49
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-007-7484-1
Online ISBN: 978-94-007-7485-8
eBook Packages: EngineeringEngineering (R0)

Publish with us

Policies and ethics