Investigating fatigue behavior of gear components with the acoustic emission technique

Peng Fei Shi; Jie Huang

Investigating fatigue behavior of gear components with the acoustic emission technique

Peng Fei Shi, Jie Huang^*

^*Corresponding author for this work

School of Mechanical Engineering

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

Abstract

A novel method is presented to evaluate the complicated fatigue behavior of gears made of 20Cr2Ni4A. Fatigue tests are conducted in a high-frequency push-pull fatigue tester, and acoustic emission (AE) technique is used to acquire metal fatigue signals. After analyzing large number of AE frequency spectrum, we find that: the crack extension can be expressed as the energy of specific frequency band, which is abbreviated as F-energy. To further validate the fatigue behavior, some correlation analysis is applied between F-energy and some AE parameters. Experimental results show that there is significant correlation among the F-energy, root mean square (RMS), relative energy, and hits. The findings can be used to validate the effectiveness of the F-energy in predicting fatigue crack propagation and remaining life for parts in-service. F-energy, as a new AE parameter, is first put forward in the area of fatigue crack growth.

Original language	English
Pages (from-to)	190-195
Number of pages	6
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	23
Issue number	2
Publication status	Published - 1 Jun 2014

Keywords

Acoustic emission
Damage accumulation
Fatigue crack growth
Life prediction
Multiple cracks

Cite this

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title = "Investigating fatigue behavior of gear components with the acoustic emission technique",

abstract = "A novel method is presented to evaluate the complicated fatigue behavior of gears made of 20Cr2Ni4A. Fatigue tests are conducted in a high-frequency push-pull fatigue tester, and acoustic emission (AE) technique is used to acquire metal fatigue signals. After analyzing large number of AE frequency spectrum, we find that: the crack extension can be expressed as the energy of specific frequency band, which is abbreviated as F-energy. To further validate the fatigue behavior, some correlation analysis is applied between F-energy and some AE parameters. Experimental results show that there is significant correlation among the F-energy, root mean square (RMS), relative energy, and hits. The findings can be used to validate the effectiveness of the F-energy in predicting fatigue crack propagation and remaining life for parts in-service. F-energy, as a new AE parameter, is first put forward in the area of fatigue crack growth.",

keywords = "Acoustic emission, Damage accumulation, Fatigue crack growth, Life prediction, Multiple cracks",

author = "Shi, {Peng Fei} and Jie Huang",

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T1 - Investigating fatigue behavior of gear components with the acoustic emission technique

AU - Shi, Peng Fei

AU - Huang, Jie

N1 - Publisher Copyright: ©Copyright Protection

PY - 2014/6/1

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N2 - A novel method is presented to evaluate the complicated fatigue behavior of gears made of 20Cr2Ni4A. Fatigue tests are conducted in a high-frequency push-pull fatigue tester, and acoustic emission (AE) technique is used to acquire metal fatigue signals. After analyzing large number of AE frequency spectrum, we find that: the crack extension can be expressed as the energy of specific frequency band, which is abbreviated as F-energy. To further validate the fatigue behavior, some correlation analysis is applied between F-energy and some AE parameters. Experimental results show that there is significant correlation among the F-energy, root mean square (RMS), relative energy, and hits. The findings can be used to validate the effectiveness of the F-energy in predicting fatigue crack propagation and remaining life for parts in-service. F-energy, as a new AE parameter, is first put forward in the area of fatigue crack growth.

AB - A novel method is presented to evaluate the complicated fatigue behavior of gears made of 20Cr2Ni4A. Fatigue tests are conducted in a high-frequency push-pull fatigue tester, and acoustic emission (AE) technique is used to acquire metal fatigue signals. After analyzing large number of AE frequency spectrum, we find that: the crack extension can be expressed as the energy of specific frequency band, which is abbreviated as F-energy. To further validate the fatigue behavior, some correlation analysis is applied between F-energy and some AE parameters. Experimental results show that there is significant correlation among the F-energy, root mean square (RMS), relative energy, and hits. The findings can be used to validate the effectiveness of the F-energy in predicting fatigue crack propagation and remaining life for parts in-service. F-energy, as a new AE parameter, is first put forward in the area of fatigue crack growth.

KW - Acoustic emission

KW - Damage accumulation

KW - Fatigue crack growth

KW - Life prediction

KW - Multiple cracks

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JF - Journal of Beijing Institute of Technology (English Edition)

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Investigating fatigue behavior of gear components with the acoustic emission technique

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