一种用于转子裂纹故障检测的区间控制策略

Shuangxing Ren; Lei Hou; Lingfeng Li; Yuhong Jin; Zeyuan Chang; Yao

doi:10.6052/1672-6553-2020-110

一种用于转子裂纹故障检测的区间控制策略

Translated title of the contribution: SWITCHING CONTROL STRATEGY FOR DETECTING CRACK AREA OF ROTORS

Shuangxing Ren
, Lei Hou^*
, Lingfeng Li
, Yuhong Jin
, Zeyuan Chang
, Yao

^*Corresponding author for this work

School of Astronautics, Harbin Institute of Technology

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

To realize detection of rotor crack fault，taking one aero-engine as an example，we establish a simplified model for the low-pressure compressor part of the engine. Based on the principle that additional constant excitation will notably amplify the super-harmonic signal，we propose an interval control strategy for fault detection. Explicitly，we apply constant excitation in the velocity range where super-harmonic resonance takes place to amplify the resonance response amplitude，and skip excitations outside this velocity range to make sure that the main resonance is not affected. The simulation results in Simulink demonstrate that after applying interval control strategy，the super-harmonic signal is significantly amplified，and the super-harmonic resonance response peak amplitude at one-third and half critical speed is nearly 4.6 times amplified which makes it easier to identify in noise environment.

Translated title of the contribution	SWITCHING CONTROL STRATEGY FOR DETECTING CRACK AREA OF ROTORS
Original language	Chinese (Traditional)
Pages (from-to)	76-82
Number of pages	7
Journal	Journal of Dynamics and Control
Volume	19
Issue number	6
DOIs	https://doi.org/10.6052/1672-6553-2020-110
State	Published - 2021
Externally published	Yes

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10.6052/1672-6553-2020-110

Cite this

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title = "一种用于转子裂纹故障检测的区间控制策略",

abstract = "To realize detection of rotor crack fault，taking one aero-engine as an example，we establish a simplified model for the low-pressure compressor part of the engine. Based on the principle that additional constant excitation will notably amplify the super-harmonic signal，we propose an interval control strategy for fault detection. Explicitly，we apply constant excitation in the velocity range where super-harmonic resonance takes place to amplify the resonance response amplitude，and skip excitations outside this velocity range to make sure that the main resonance is not affected. The simulation results in Simulink demonstrate that after applying interval control strategy，the super-harmonic signal is significantly amplified，and the super-harmonic resonance response peak amplitude at one-third and half critical speed is nearly 4.6 times amplified which makes it easier to identify in noise environment.",

keywords = "aero-engine, constant excitation, crack detection, rotor system, switching control strategy",

author = "Shuangxing Ren and Lei Hou and Lingfeng Li and Yuhong Jin and Zeyuan Chang and Yao",

year = "2021",

doi = "10.6052/1672-6553-2020-110",

language = "繁体中文",

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TY - JOUR

T1 - 一种用于转子裂纹故障检测的区间控制策略

AU - Ren, Shuangxing

AU - Hou, Lei

AU - Li, Lingfeng

AU - Jin, Yuhong

AU - Chang, Zeyuan

AU - Yao,

PY - 2021

Y1 - 2021

N2 - To realize detection of rotor crack fault，taking one aero-engine as an example，we establish a simplified model for the low-pressure compressor part of the engine. Based on the principle that additional constant excitation will notably amplify the super-harmonic signal，we propose an interval control strategy for fault detection. Explicitly，we apply constant excitation in the velocity range where super-harmonic resonance takes place to amplify the resonance response amplitude，and skip excitations outside this velocity range to make sure that the main resonance is not affected. The simulation results in Simulink demonstrate that after applying interval control strategy，the super-harmonic signal is significantly amplified，and the super-harmonic resonance response peak amplitude at one-third and half critical speed is nearly 4.6 times amplified which makes it easier to identify in noise environment.

AB - To realize detection of rotor crack fault，taking one aero-engine as an example，we establish a simplified model for the low-pressure compressor part of the engine. Based on the principle that additional constant excitation will notably amplify the super-harmonic signal，we propose an interval control strategy for fault detection. Explicitly，we apply constant excitation in the velocity range where super-harmonic resonance takes place to amplify the resonance response amplitude，and skip excitations outside this velocity range to make sure that the main resonance is not affected. The simulation results in Simulink demonstrate that after applying interval control strategy，the super-harmonic signal is significantly amplified，and the super-harmonic resonance response peak amplitude at one-third and half critical speed is nearly 4.6 times amplified which makes it easier to identify in noise environment.

KW - aero-engine

KW - constant excitation

KW - crack detection

KW - rotor system

KW - switching control strategy

UR - https://www.scopus.com/pages/publications/85176242526

U2 - 10.6052/1672-6553-2020-110

DO - 10.6052/1672-6553-2020-110

M3 - 文章

AN - SCOPUS:85176242526

SN - 1672-6553

VL - 19

SP - 76

EP - 82

JO - Journal of Dynamics and Control

JF - Journal of Dynamics and Control

IS - 6

ER -

一种用于转子裂纹故障检测的区间控制策略

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