Investigation of the favorable conditions to apply the combination resonances approach for crack detection purposes

Various structural health monitoring methods were recently applied to fault diagnosis of rotating machinery, in which vibration response–based techniques demonstrated to be well adapted for different scenarios. However, only severe cracks are detected when most of such techniques are applied. Thus,...

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Veröffentlicht in:	Journal of vibration and control 2020-08, Vol.26 (15-16), p.1345-1355
Hauptverfasser:	Cavalini, Aldemir A, Morais, Tobias S, da Silva, Izabela B, Bachschmid, Nicolò, Steffen, Valder
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer simulation Cracks Diagnostic systems Excavation Fault diagnosis Finite element method Heuristic methods Identification methods Mathematical models Monitoring methods Optimization Resonance Rotating machinery Rotating shafts Rotation Rotors Structural health monitoring Vibration
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creator	Cavalini, Aldemir A Morais, Tobias S da Silva, Izabela B Bachschmid, Nicolò Steffen, Valder
description	Various structural health monitoring methods were recently applied to fault diagnosis of rotating machinery, in which vibration response–based techniques demonstrated to be well adapted for different scenarios. However, only severe cracks are detected when most of such techniques are applied. Thus, innovative methods are proposed to identify the existence of incipient cracks in rotating shafts. In a previous contribution, the combination resonance approach for crack identification purposes was presented. This method is based on the application of additional forces at combination frequencies along with a heuristic optimization method to identify crack signatures in the vibration responses of the rotor. In the present work, the best conditions to apply the combination resonance approach are investigated in terms of the amplitude and frequency of the so-called diagnostic force. The vibration responses and phase angles of a cracked rotor were determined by using the harmonic balance technique. The FLEX approach is used to model the crack. Numerical simulations were performed using the finite element model of a horizontal rotor.
doi_str_mv	10.1177/1077546319896657
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subjects	Computer simulation Cracks Diagnostic systems Excavation Fault diagnosis Finite element method Heuristic methods Identification methods Mathematical models Monitoring methods Optimization Resonance Rotating machinery Rotating shafts Rotation Rotors Structural health monitoring Vibration
title	Investigation of the favorable conditions to apply the combination resonances approach for crack detection purposes
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