Helical gear wear monitoring: Modelling and experimental validation

Brethee, Khaldoon F.; Zhen, Dong; Gu, Fengshou; Ball, Andrew

doi:10.1016/j.mechmachtheory.2017.07.012

Cited by 66 publications

(30 citation statements)

References 55 publications

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“…Many researchers have established dynamical simulation models to analyze gear faults [5]. Brethee et al [6] established an 18-degree-of-freedom vibration system to study the different degrees of tooth-surface wear. However, their analytical equations are very complex and inconvenient to use.…”

Section: Introductionmentioning

confidence: 99%

Fault Diagnosis of a Helical Gearbox Based on an Adaptive Empirical Wavelet Transform in Combination with a Spectral Subtraction Method

Wang

Lee

2019

Applied Sciences

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Fault characteristic extraction is attracting a great deal of attention from researchers for the fault diagnosis of rotating machinery. Generally, when a gearbox is damaged, accurate identification of the side-band features can be used to detect the condition of the machinery equipment to reduce financial losses. However, the side-band feature of damaged gears that are constantly disturbed by strong jamming is embedded in the background noise. In this paper, a hybrid signal-processing method is proposed based on a spectral subtraction (SS) denoising algorithm combined with an empirical wavelet transform (EWT) to extract the side-band feature of gear faults. Firstly, SS is used to estimate the real-time noise information, which is used to enhance the fault signal of the helical gearbox from a vibration signal with strong noise disturbance. The empirical wavelet transform can extract amplitude-modulated/frequency-modulated (AM-FM) components of a signal using different filter bands that are designed in accordance with the signal properties. The fault signal is obtained by building a flexible gear for a helical gearbox with ADAMS software. The experiment shows the feasibility and availability of the multi-body dynamics model. The spectral subtraction-based adaptive empirical wavelet transform (SS-AEWT) method was applied to estimate the gear side-band feature for different tooth breakages and the strong background noise. The verification results show that the proposed method gives a clearer indication of gear fault characteristics with different tooth breakages and the different signal-noise ratio (SNR) than the conventional EMD and LMD methods. Finally, the fault characteristic frequency of a damaged gear suggests that the proposed SS-AEWT method can accurately and reliably diagnose faults of a gearbox.

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Section: Introductionmentioning

confidence: 99%

Fault Diagnosis of a Helical Gearbox Based on an Adaptive Empirical Wavelet Transform in Combination with a Spectral Subtraction Method

Wang

Lee

2019

Applied Sciences

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“…For wear fault diagnosis, most of the studies mainly use the signal processing method to extract fault signals, such as the gear wear monitoring by a modulation signal bispectrum based on motor current signal analysis [12], helical gear wear monitoring [13], and fault diagnosis of gear wearing based on order spectrum analysis [14]. Plint and Alliston-Greiner [15] proposed a new wear criterion: the energy pulse.…”

Section: Introductionmentioning

confidence: 99%

Nonlinear Dynamic Characteristics of Fixed‐Axis Gear Wear in Multistage Gear Transmission Systems

Wang

2019

Shock and Vibration

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With the increasing service life of a gear transmission system, the gear teeth become constantly worn and the gear clearance increases. The increase in the clearance will produce a series of nonlinear changes that change the stability of the system and can even cause the loss of stability. In this paper, dimensionless dynamic equations of a multistage gear transmission system that contains a two-stage fixed-axis gear and a one-stage planetary gear were derived. The wear fault was simulated by changes in the gear clearance. System bifurcation diagrams with an increase in the clearance were studied. The motion state and transition process of the multistage gear transmission system with a wear fault were studied using the Poincaré section. The change in the spectrum characteristics with an increase in the clearance was analyzed. The frequency spectrum characteristics of the wear fault were discovered. The vibration mechanism and a fault wear diagnosis method in a multistage gear transmission system were obtained.

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“…In 2015, Li and Peng developed a multi-degreeof-freedom nonlinear gear model that considers the meshing force and tribological force of the gear pair [9]. To analyze the influence of helical gear wear on the dynamic response of the gear transmission, Brethee et al developed a comprehensive dynamic model that consists of 18 degrees of freedom [10].…”

Section: Introductionmentioning

confidence: 99%

Damage Degree Detection of Cracks in a Locomotive Gear Transmission System

Liu

Sun

Chen

2018

Shock and Vibration

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The gear transmission system is a vital component of the locomotive bogie. During locomotive operation, the damage to the gear transmission system spreads rapidly and affects the locomotive’s operational safety. In this paper, a method is proposed to detect the degree of tooth root crack damage. First, a dynamic locomotive model with a gear transmission is built, and the vertical acceleration of the locomotive subsystem (car body, bogie frame, wheelset, and motor) vibrations is obtained under various degrees of tooth root crack damage on the gear transmission system. By comparing the characteristics of those signals, the subsystem that is more sensitive to the effect of the tooth root crack is found. The characteristic parameters of the sensitive subsystem are calculated, and a multidimensional characteristic parameter matrix is established. The multidimensional characteristic parameter matrix is optimized and reduced by principal component analysis (PCA). Using the Grey relational analysis method, the degree of tooth root crack damage is detected. The proposed method demonstrates the ability to recognize the degree of tooth root crack damage.

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Helical gear wear monitoring: Modelling and experimental validation

Cited by 66 publications

References 55 publications

Fault Diagnosis of a Helical Gearbox Based on an Adaptive Empirical Wavelet Transform in Combination with a Spectral Subtraction Method

Fault Diagnosis of a Helical Gearbox Based on an Adaptive Empirical Wavelet Transform in Combination with a Spectral Subtraction Method

Nonlinear Dynamic Characteristics of Fixed‐Axis Gear Wear in Multistage Gear Transmission Systems

Damage Degree Detection of Cracks in a Locomotive Gear Transmission System

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