Natural roller bearing fault detection by angular measurement of true instantaneous angular speed

Natural roller bearing fault detection by angular measurement of true instantaneous angular speed

The challenge in many production activities involving large mechanical devices like power transmissions consists in reducing the machine downtime, in managing repairs and in improving operating time. Most online monitoring systems are based on conventional vibration measurement devices for gear tran...

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Bibliographic Details
Published in:Mechanical systems and signal processing Vol. 24; no. 7; pp. 1998 - 2011
Main Authors: Renaudin, L., Bonnardot, F., Musy, O., Doray, J.B., Rémond, D.
Format: Journal Article Conference Proceeding
Language:English
Published: Kidlington Elsevier Ltd 01-10-2010
Elsevier
Subjects:
Angular sampling
Angular speed
Applied sciences
Automotive components
Bearing
Bearings
Bearings, bushings, rolling bearings
Condition monitoring
Drives
Encoder
Engineering Sciences
Exact sciences and technology
Fault detection
Faults
Fluctuation
Fundamental areas of phenomenology (including applications)
Industrial metrology. Testing
Instantaneous angular speed
Measurement and testing methods
Measurements common to several branches of physics and astronomy
Mechanical components
Mechanical engineering
Mechanical engineering. Machine design
Mechanics
Metrology, measurements and laboratory procedures
Physics
Power transmission
Repairing
Solid mechanics
Structural and continuum mechanics
Velocity, acceleration and rotation
Fault detection
Instantaneous angular speed
Encoder
Angular sampling
Bearing
Motor car
Fourier transformation
Surface crack
Slip
Vibration measurement
Speed measurement
Rotation speed
Modeling
Vibrometer
Varying speed
Gear
Rolling bearing
Angular measurement
Gear drive
Robustness
Sampling
Repair
Monitoring
Damaging
Erosion
Experimental study
Operating conditions
Magnetic measurement
Roller bearing
Corrosion
Power device
Scaling
Loadbearing capacity
Defect detection
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Summary:The challenge in many production activities involving large mechanical devices like power transmissions consists in reducing the machine downtime, in managing repairs and in improving operating time. Most online monitoring systems are based on conventional vibration measurement devices for gear transmissions or bearings in mechanical components. In this paper, we propose an alternative way of bearing condition monitoring based on the instantaneous angular speed measurement. By the help of a large experimental investigation on two different applications, we prove that localized faults like pitting in bearing generate small angular speed fluctuations which are measurable with optical or magnetic encoders. We also emphasize the benefits of measuring instantaneous angular speed with the pulse timing method through an implicit angular sampling which ensures insensitivity to speed fluctuation. A wide range of operating conditions have been tested for the two applications with varying speed, load, external excitations, gear ratio, etc. The tests performed on an automotive gearbox or on actual operating vehicle wheels also establish the robustness of the proposed methodology. By the means of a conventional Fourier transform, angular frequency channels kinematically related to the fault periodicity show significant magnitude differences related to the damage severity. Sideband effects are evidently seen when the fault is located on rotating parts of the bearing due to load modulation. Additionally, slip effects are also suspected to be at the origin of enlargement of spectrum peaks in the case of double row bearings loaded in a pure radial direction.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0888-3270
1096-1216
DOI:10.1016/j.ymssp.2010.05.005