Nonlinear forced vibrations analysis of overhung rotors with unbalanced disk

Tiaki, M. Moradi; Hosseini, Seyed Ali; Zamanian, M.

doi:10.1007/s00419-015-1063-y

Cited by 15 publications

(2 citation statements)

References 33 publications

(29 reference statements)

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“…Researchers studied the overhung rotor response considering unbalanced forces arising due to the gravity effect and disk skew. Studies show that amplitude response increases by an enormous amount of 27.77% for cracked overhung rotating shaft system with unbalance [40,41]. The prominent increase in amplitude response of 1X and 2X components with the application of extrinsic excitation indicates a crack [42].…”

Section: Introductionmentioning

confidence: 99%

Crack Depth Estimation in Shaft for an Overhung Rotating Shaft System: An Experimental Investigation

Tamrakar

Mittal

Singh

2021

J Fail. Anal. and Preven.

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This paper focuses on transverse crack detection and its depth estimation in the shaft by applying extrinsic excitation for an overhung rotating shaft system. The dynamics of overhung rotating shaft system with six different shafts having different crack depth parameters are studied experimentally and through the finite element method (FEM). Variation of natural frequencies with crack depth parameters is studied using FEM through ANSYS. The practical application of axial extrinsic excitation is employed to an overhung rotating shaft system for spectrum analysis in two mutually perpendicular directions. The comparison of spectrum for healthy and cracked overhung rotating shaft system shows the appearance of distinctive peaks for cracked rotor system along with 2X component which is major for crack detection. The appearance of peaks at the summation of extrinsic excitation frequency plus rotational frequency along with extrinsic excitation frequency and its harmonics provides an early warning of the crack in the rotor system. The amplitude of these peaks also increases with the crack depth parameter, which estimates crack depth in the shaft. The approach presented in this paper can be very well adapted for crack detection and estimate its depth in the overhung rotating shaft system during its operation.

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Section: Introductionmentioning

confidence: 99%

Crack Depth Estimation in Shaft for an Overhung Rotating Shaft System: An Experimental Investigation

Tamrakar

Mittal

Singh

2021

J Fail. Anal. and Preven.

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“…They considered a disk attached to the middle of a exible microrotating shaft and then, by using the Galerkin approach, obtained the rst two natural frequencies of the system with respect to di erent values of size scale parameter. In addition, there are several studies of the dynamic response of overhung rotor systems based on the classical continuum mechanics theories [51,52].…”

Section: Introductionmentioning

confidence: 99%

Size Effect Investigation on Lateral Vibrations of a Micro Drill Subjected to an Axial Load Using the Modified Couple Stress Theory

Rahi

2018

Scientia Iranica

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In this paper, the modi ed couple stress theory is used to capture size e ect on dynamic behavior of a micro-drill subjected to an axial load and a concentrated mass, which is attached to its free end. Governing equations of lateral vibrations of the system and associated boundary conditions were derived by rst, obtaining the total kinetic and potential energy of the system and then, using Hamilton's principle. The Assumed Modes method was applied for transforming the governing partial di erential equations into a set of in nite ordinary di erential equations. Considering two terms of the equations, the rst two natural frequencies and instability rotational speeds of the micro-drill system were determined semi-analytically. Finally, numerical results of natural frequencies and the threshold of instability speeds of the system were derived with respect to di erent values of the system parameters such as rotational speed, axial load, rotor length, concentrated mass, and material length scale. The results showed that the material length scale parameter was extremely e ective on natural frequencies and the threshold of instability speeds of the micro-drill.

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Dynamic Modeling and Analysis of Nonlinear Flexible Rotors Supported by Viscoelastic Bearings

Al-Solihat

Behdinan

2021

Advanced Multifunctional Lightweight Aerostructures; Design, Development, and Implementation

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Nonlinear forced vibrations analysis of overhung rotors with unbalanced disk

Cited by 15 publications

References 33 publications

Crack Depth Estimation in Shaft for an Overhung Rotating Shaft System: An Experimental Investigation

Crack Depth Estimation in Shaft for an Overhung Rotating Shaft System: An Experimental Investigation

Size Effect Investigation on Lateral Vibrations of a Micro Drill Subjected to an Axial Load Using the Modified Couple Stress Theory

Dynamic Modeling and Analysis of Nonlinear Flexible Rotors Supported by Viscoelastic Bearings

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