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AuthorDesouki, Mohamed
AuthorSassi, Sadok
AuthorRenno, Jamil
AuthorGowid, Samer Abdelazim
Available date2024-03-13T09:01:26Z
Publication Date2020
Publication NameShock and Vibration
ResourceScopus
ISSN10709622
URIhttp://dx.doi.org/10.1155/2020/8819676
URIhttp://hdl.handle.net/10576/53019
AbstractIn rotating machinery, the second most common fault after imbalance is misalignment. Misalignment can have a severe impact on equipment and may reduce the machine's lifetime considerably. In this paper, the simultaneous effect of imbalance and misalignment (parallel or angular) on the vibration spectra of rotating machinery will be discussed. A numerical model is developed and used to obtain the time and frequency responses of the rotor-coupling-bearing system to the simultaneous effect of these faults. The numerical model shows that the imbalance was mainly related to the peak located around 1X, whereas misalignment was linked to the peak around 2X. In addition, the parallel misalignment fault magnifies the 2X amplitude of the displacement response, whereas the response of angular misalignment is captured at the 2X and 4X amplitudes. This study also examines the effects of changing the model's rotational speed, misalignment level, and coupling type for angular and parallel misalignments.
Languageen
PublisherHindawi Limited
SubjectFrequency response
Numerical models
Rotating machinery
Angular misalignment
Bearing systems
Displacement response
Parallel misalignment
Rotational speed
Simultaneous effects
Time and frequency response
Vibration spectra
Alignment
TitleDynamic Response of a Rotating Assembly under the Coupled Effects of Misalignment and Imbalance
TypeArticle
Volume Number2020
dc.accessType Open Access


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