Vibration characteristics analysis of mistuned bladed disk system based on mobile interface prestressed CMS super-element method

The prediction of vibration characteristics was studied in the mistuned bladed disk by the mobile interface prestressed component mode synthesis (CMS) superelement method. When the strongly, generally, and weakly coupling in the mistuned bladed disk, according to the results of the direct FEM method, the prediction accuracy of this method was verified and compared with the fixed-interface CMS method by using the relative error of dynamic frequency, vibration mode matching function, and dimensionless root mean square error of vibration amplitudes. It is pointed that for mistuned bladed disk in the strong coupling, the prediction accuracy of dynamic frequency and vibration amplitudes are higher by the mobile interface CMS method and the vibration modes are matched with the direct method. In weak coupling, the results of dynamic frequency and vibration modes predicted by the mobile interface CMS method and the fixed-interface CMS method are consistent with the direct method, but the vibration amplitudes’ prediction error of the mobile interface CMS method is lower than that of the fixed-interface CMS method. In general coupling, the mobile interface CMS method has higher dynamic frequency prediction accuracy at low order, and the two methods have comparable dynamic frequency prediction accuracy at high order. The vibration modes predicted by the two methods are matched with the direct FEM method, and the prediction accuracy of vibration amplitude by the mobile interface CMS method is better than that of the fixed-interface CMS method. The results indicate that the mobile interface CMS method could more accurately predict vibration characteristics of the mistuned bladed disk with different coupling degrees and could be an effective measurement for studying the vibration characteristics of the mistuned bladed disk system.

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Research on Dynamic Characteristics of Bladed Disk System by Fixed Interface Prestressed-Free Interface CMS Super-Element Method

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.724.218 ◽

2015 ◽

Vol 724 ◽

pp. 218-221

Author(s):

Liang Zhang ◽

Xin Li ◽

Tie Jian Liu

Keyword(s):

Dynamic Characteristics ◽

Complex Structure ◽

Maximum Relative Error ◽

Disk System ◽

Free Interface ◽

Bladed Disk ◽

Substructure Analysis ◽

Characteristics Analysis ◽

Fixed Interface ◽

Element Method

For the prestressed substructure analysis, the existing CMS super-element methods are only suitable for the model that relatively simple structure, less meshing and small number of nodes. Since the complex structure and more mesh division of an arbitrary large model such as a mistuned bladed disk system, it is more time-consuming for the dynamic characteristics analysis. Because of above shortcoming, an approximate analysis method is presented, it is called fixed interface prestressed-free interface CMS super-element method. The accuracy of this method is predicted by the example. The results showed that the dimensionless dynamic frequency maximum relative error of system is 3.072215%, which can be to meet the requirement of accuracy.

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Effect of Bladed Packets on Transient Vibration Localization Behaviors of Mistuned Whole Bladed Disk System

10.1115/gt2021-58722 ◽

2021 ◽

Author(s):

Xuanen Kan

Keyword(s):

Mathematical Model ◽

Steady State ◽

Vibration Characteristics ◽

Vibration Response ◽

Vibration Energy ◽

Disk System ◽

Transient Vibration ◽

Vibration Localization ◽

Bladed Disk ◽

Alternative Approach

Abstract The multi-packets whole bladed disks are usually used in the turbo-machineries. The most different characteristic of the multi-packets whole bladed disk is that some blades are connected by lacing forming a bladed packet, and several bladed packets are assembled to form a multi-packets whole bladed disk system. Mistuning of blades is an attractive vibration subject due to vibration localization problems that vibration energy focuses on some blades. The vibration localization characteristics of steady state of bladed disk are mainly discussed in previous studies, and few works focus on the transient vibration localization behaviors of the multi-packets whole mistuned bladed disk. Transient vibration characteristics of bladed disk are crucial during startup. Therefore, in this paper, transient vibration characteristics of the multi-packets whole bladed disk are studied. A developed mathematical model is used to calculate the transient vibration response of the multi-packets whole bladed disk. The number of bladed packets on the transient vibration localization of the multi-packets mistuned whole bladed disk is discussed. The results indicate that the bladed packets are able to reduce the transient vibration localization. The results suggest that the bladed packet is an alternative approach to reduce the vibration localization of bladed disk caused by mistuning. Moreover, the different number of bladed packets will produce various behaviors of transient vibration localization of multi-packets whole mistuned bladed disk system.

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501 Vibration characteristics of intentional mistuned bladed disk system

The Proceedings of the Dynamics & Design Conference ◽

10.1299/jsmedmc.2004._501-1_ ◽

2004 ◽

Vol 2004 (0) ◽

pp. _501-1_-_501-6_

Author(s):

Hiroki TAKAHARA ◽

Akihiro MAKIMOTO

Keyword(s):

Vibration Characteristics ◽

Disk System ◽

Bladed Disk

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Study on Influence of Multi-Parameter Variation of Bladed Disk System on Vibration Characteristics

Applied Sciences ◽

10.3390/app11073084 ◽

2021 ◽

Vol 11 (7) ◽

pp. 3084

Author(s):

Honggang Pan ◽

Yunshi Wu ◽

Tianyu Zhao

Keyword(s):

Finite Element ◽

Vibration Mode ◽

Fine Sand ◽

Structure Design ◽

Vibration Characteristics ◽

Disk System ◽

Element Analysis ◽

Bladed Disk ◽

Rotor Disk ◽

Aero Engines

As the main components of the rotor system of aero-engines and other rotating machinery equipment, the bladed disk system has high requirements on its structure design, safety and stability. Taking the rotor disk system of aero-engines as the research object, modal calculation of the rotor disk system was based on the group theory algorithm, and using the fine sand movement on the experimental disk to express the disk vibration shape. The experimental vibration mode is used to compare with the finite element calculation results to verify the reliability of the finite element analysis. Study on the effect of dissonance parameter changes on the bladed disk system vibration characteristics concluded that the vibration mode trends of the blisk system and the disc are, basically, consistent. As the mass of the blade increases, the modal frequencies of the entire blisk system gradually decrease, and the amplitude slightly increases. When the mass increases at different parts of the blade, the effect on the modal frequencies of the bladed disk system are not obvious. When the bladed disk system vibrates at low frequency, the disc will not vibrate and each blade will vibrate irregularly. The bladed disk should be avoided to work in this working area for a long time, so as not to cause fatigue damage or even fracture of some blades.

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Vibration characteristics analysis and treatment location optimization of complex cavity with porous media and constrained layer damping

2020 7th International Forum on Electrical Engineering and Automation (IFEEA) ◽

10.1109/ifeea51475.2020.00118 ◽

2020 ◽

Author(s):

Chen Sha ◽

Lu Jing ◽

Wang Qing ◽

Cao Pengcheng

Keyword(s):

Porous Media ◽

Vibration Characteristics ◽

Constrained Layer Damping ◽

Location Optimization ◽

Complex Cavity ◽

Characteristics Analysis

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The vibration characteristics of steam turbine blades (2nd report, A method for calculating resonant conditions and resonant stresses of bladed-disk vibration)

TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series C ◽

10.1299/kikaic.52.724 ◽

1986 ◽

Vol 52 (474) ◽

pp. 724-729

Author(s):

Kiyoshi NAMURA

Keyword(s):

Steam Turbine ◽

Turbine Blades ◽

Vibration Characteristics ◽

Bladed Disk ◽

Steam Turbine Blades

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Dynamic Characteristics Analysis for the Headstock of a Vertical Machining Center

Materials Science Forum ◽

10.4028/www.scientific.net/msf.836-837.348 ◽

2016 ◽

Vol 836-837 ◽

pp. 348-358

Author(s):

Zhe Li ◽

Song Zhang ◽

Yan Chen ◽

Peng Wang ◽

Ai Rong Zhang

Keyword(s):

Dynamic Characteristics ◽

Natural Frequencies ◽

Vibration Characteristics ◽

Numerical Control ◽

Vibration Test ◽

Machining Accuracy ◽

Modal Test ◽

Machining Center ◽

Characteristics Analysis ◽

Nc Machine

Dynamic characteristics of numerical control (NC) machine tools, such as natural frequency and vibration property, directly affect machining efficiency and finished surface quality. In general, low-order natural frequencies of critical components have significant influences on machine tool’s performances. The headstock is the most important component of the machine tool. The reliability, cutting stability, and machining accuracy of a machining center largely depend on the structure and dynamic characteristics of the headstock. First, in order to obtain the natural frequencies and vibration characteristics of the headstock of a vertical machining center, modal test and vibration test in free running and cutting conditions were carried out by means of the dynamic signal collection and analysis system. According to the modal test, the first six natural frequencies of the headstock were obtained, which can not only guide the working speed, but also act as the reference of structural optimization aiming at frequency-shift. Secondly, by means of the vibration test, the vibration characteristics of the headstock were obtained and the main vibration sources were found out. Finally the corresponding vibration reduction plans were proposed in this paper. That provides the reference for improving the performance of the overall unit.

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