Contact analysis of a flexible bladed-rotor

Lesaffre, Nicolas; Sinou, Jean-Jacques; Thouverez, Fabrice

doi:10.1016/j.euromechsol.2006.11.002

Cited by 65 publications

(38 citation statements)

References 20 publications

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“…1(f). This rather complicated behavior is difficult to predict and even to interpret as it was reported in the studies of numerous mechanical systems, see, e.g, [20,21,24,25,27,29,35,36,39,43,48]. The present work reveals that the untwisting of the Campbell diagrams is determined by a limited number of singular eigenvalue surfaces.…”

Section: Introductionmentioning

confidence: 78%

Untwisting the Campbell diagrams of weakly anisotropic rotor systems

Kirillov

2009

J. Phys.: Conf. Ser.

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Section: Introductionmentioning

confidence: 78%

Untwisting the Campbell diagrams of weakly anisotropic rotor systems

Kirillov

2009

J. Phys.: Conf. Ser.

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“…Genta [6] indicated that the vibration of blade may cause the instability of the bladed rotor system. Lesaffre et al [7] investigated the contact problem of the rotating blade against the stationary outer case in the bladed rotor system. They discussed the frictionless sliding contact between the blades and the casing, without rubbing, and highlighted an unstable phenomenon near the stator critical speed.…”

Section: Introductionmentioning

confidence: 99%

Bifurcation and chaos of the bladed overhang rotor system with squeeze film dampers

Cao

Wang

Chen

et al. 2009

Sci. China Ser. E-Technol. Sci.

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To study the nonlinear dynamic behavior of the bladed overhang rotor system with squeeze film damper (SFD), a blade-overhang rotor-SFD model is formulated using the lumped mass method and the Lagrange approach. The cavitated short bearing model is employed to describe the nonlinear oil force of the SFD. To reduce the scale of the nonlinear coupling system, a set of orthogonal transformations is employed to decouple the one nodal diameter equations of blades, which are coupled with the dynamical equations of the rotor, with other equations of blades. In this way, the original system with 16+4n (n≥3) degrees of freedom (DoF) is reduced to a system with 24 DoF only. Then the parametric excitation terms in the blade-overhang rotor-SFD model are simplified in terms of periodic transformations. The coupling equations are numerically solved and the solutions are used to analyze the dynamic behavior of the system in terms of the bifurcation diagram, whirl orbit, Poincaré map and spectrum plot. A variety of motion types are found such as multi-periodic, quasi-periodic, and chaotic motions. Moreover, the typical nonlinear dynamic evolutions including the periodic-doubling bifurcation and reverse bifurcation are noted. It is noticed that there exist apparent differences in the dynamic behavior between the blade-overhang rotor-SFD models without and with considering the effect of blades. bladed overhang rotor system, squeeze film damper, bifurcation, chaos

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“…In the role of oil film force, the system will show oil film instability phenomenon [21][22][23][24][25]. To clearly observe the dynamics characteristic of rotor system under the oil film force, then specially draw the threedimensional spectrum on the right neck (node 25) of the rotor system without fault, shown in Figure 5.…”

Section: The Influence Of the Oil Film Force On The Dynamicsmentioning

confidence: 99%

Response Characteristics of Looseness‐Rubbing Coupling Fault in Rotor‐Sliding Bearing System

Liu

Xue

Jia

et al. 2017

Mathematical Problems in Engineering

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For the diagnosis of looseness-rubbing coupling fault of rotor-sliding bearing system caused by bolt looseness fault, the mechanical model and finite element model of dual-disc rotor system with looseness-rubbing coupling fault are established based on the nonlinear finite element method, nonlinear oil film force, looseness stiffness model, and Hertz contact theory. With the augmented Lagrange method, contact constraint conditions are dealt with to ensure that the rotary disk and casing contact with each other meeting boundary penetrating depth within the prescribed tolerance range. And then the dynamics characteristics of the health rotor system supported by sliding bearing are studied. Combined with experimental study and simulation analysis, it is found that the looseness-rubbing coupling fault is often characterized by rubbing fault, the lower part of the time-domain fluctuated shape is denser, while the upper part is relatively loose, and multiple nested half ellipse is shown in orbit diagram. Because of the loosing stiffness and rubbing force, the phenomenon of unstable oil film is depressed. The appearance of the first-and second-order oil film oscillation phenomenon is delayed. It could be used as a theoretical basis for diagnosing looseness-rubbing coupling fault of rotor-sliding bearing system.

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Contact analysis of a flexible bladed-rotor

Cited by 65 publications

References 20 publications

Untwisting the Campbell diagrams of weakly anisotropic rotor systems

Untwisting the Campbell diagrams of weakly anisotropic rotor systems

Bifurcation and chaos of the bladed overhang rotor system with squeeze film dampers

Response Characteristics of Looseness‐Rubbing Coupling Fault in Rotor‐Sliding Bearing System

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