Dynamic characteristics of rotor system and rub-impact fault feature research based on casing acceleration
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TLDR
In this article, a coupled dynamic model of rotor-ball bearing-stator of aero-engine is built by means of the lumped mass method, taking into account the nonlinear rub-impact, bearing failure force and deformation of the casing.Abstract:
Aimed at the vibration of whole aero-engine, a coupled dynamic model of rotor-ball bearing-stator of aero-engine is built. By means of the lumped mass method, taking into account the nonlinear rub-impact, bearing failure force and deformation of the casing, the dynamic equation of the system containing typical rub-impact is derived. The response of the system under different conditions is obtained by using the fourth order Runge-Kutta numerical integration algorithm. By adopting the finite element analysis software ANSYS, the finite element model of the rotor shaft is established and the first six-order natural frequencies of the rotor system are acquired. Taking advantage of the parameters of the signal in time domain and frequency domain, frequency characteristics are extracted as the fault features. The single-point rubbing experiment is carried out in the test rig, and the working speed is higher than the first critical speed, so the rotor shaft is flexible rotor. By the methods of spectrum and cepstrum analysis, the rub-impact characteristics of the casing vibration acceleration time series data are analyzed. The results show that the casing vibration acceleration has obvious impact characteristics; the impact frequency is equal to the product of rotating frequency and number of the blades; the impact frequency component and its multiple-frequencies are demonstrated in the frequency spectrum; the strength of impact is modulated by the rotating frequency, so that there are families of side bands on impact frequency and both sides of frequency doubling, and the interval of sideband equals the rotating frequency. The frequency components of the rotating frequency and its frequency doubling are clearly shown in the cepstrum. By comparing the simulation and experiment, the rubbing characteristics found out in this paper has enough accuracy.read more
Citations
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Casing vibration response prediction of dual-rotor-blade-casing system with blade-casing rubbing
TL;DR: In this article, the effects of the blade-casing clearance and the number of blades on the vibration responses of a dual-rotor-blending system with bladecasing rubbing are considered.
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Nonlinear vibrations of a dual-rotor-bearing-coupling misalignment system with blade-casing rubbing
TL;DR: In this article, a dual-rotor-bearing-coupling misalignment system with blade-casing rubbing is investigated based on numerical simulation and experimental measurement, and the results reveal the nonlinear vibration characteristics of the dualrotor bearing-Coupling system with local blade-case rubbing fault.
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Vibration response analysis of rubbing faults on a dual-rotor bearing system
TL;DR: In this article, a new dynamic model is established to study the dual-rotor system's rubbing fault, and the characteristics of the rubbing faults are analyzed by time-domain waveform, 3D waterfall plot and spectrum cascades.
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Early fault detection of single-point rub in gas turbines with accelerometers on the casing based on continuous wavelet transform
TL;DR: It is proved that an adequately designed CWT-based algorithm outlines the signal features that better characterize single-point rub, and unlike the DFT it is sensitive to an outbreak of rub within a time series.
References
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Book
Rolling Bearing Analysis
Tedric A. Harris,W. J. Crecelius +1 more
TL;DR: Rolling bearing types and applications Rolling Bearing Macrogeometry Interference Fitting and Clearance Bearing Loads and Speeds Ball and Roller Loads Contact Stress and Deformation Distribution of Internal Loading in Statically Loaded Bearingings Internal Speeds and Motions Distribution of internal Loading in High Speed Bearing Deflection, Preloading, and Stiffness Statically Indeterminate Shaft - Bearing Systems Lubricant Films in Rolling Element - Raceway Contacts Friction in Fluid-Lubricated Rolling Element- RacewayContacts friction in Rolling Bearingings Rolling Bearing Temperatures Bearing
Book
Essential Concepts of Bearing Technology
TL;DR: In this paper, the authors introduce the concept of rolling bearing and apply it to a variety of applications, including industrial, national, and international standards, such as interference fitting and clearance.
Journal ArticleDOI
Chaotic responses of unbalanced rotor/bearing/stator systems with looseness or rubs
Agnes Muszynska,Paul Goldman +1 more
TL;DR: Goldman and Muszynska as discussed by the authors presented results of numerical simulation of the dynamic behavior of a one-lateral-mode unbalanced and radially side-loaded rotor with either a loose pedestal (looseness in a stationary joint), or with occasional rotor-to-stator rubbing.
Journal ArticleDOI
Experimental observation of nonlinear vibrations in a rub-impact rotor system
Fulei Chu,Wenxiu Lu +1 more
TL;DR: In this article, a special structure of stator is designed to simulate the condition of the full rotor-to-stator rub of the rotor system, which can be used to analyze nonlinear responses and bifurcation characteristics of the system when the rub-impact occurs.
Journal ArticleDOI
Non-linear transient analysis of rotor-casing rub events
F.K. Choy,J. Padovan +1 more
TL;DR: In this article, a non-linear analytical rotor casing rub interaction simulation is solved, which yields insights as to the interrelationship between rub force histories, energy levels, rub duration, incidence separation angles, and backward whirl initiation, as well as the overall rotor orbit during successive rubs.