Surface Defects Vibration Measurements of Automotive Tapered Roller Bearings

The paper investigates vibration testing methodologies for automotive tapered roller bearings. The European Union regulations have indirectly led to improvements in the NVH performance of the bearings that affect both the industrial and automotive markets. The goal of this study was to examine the i...

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Bibliographic Details
Published in:IOP conference series. Materials Science and Engineering 2024-03, Vol.1303 (1), p.12022
Main Authors: Sabo, B A, Voloacă, Ş
Format: Article
Language:English
Subjects:
Automobile industry
Bearings
Fast Fourier transformations
Fourier transforms
Quality control
Rockwell indenters
Roller bearings
Surface defects
Taper roller bearings
Vibration
Vibration measurement
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Summary:The paper investigates vibration testing methodologies for automotive tapered roller bearings. The European Union regulations have indirectly led to improvements in the NVH performance of the bearings that affect both the industrial and automotive markets. The goal of this study was to examine the influence of localized small defects on the vibrations’ magnitudes within tapered roller bearings. A Rockwell indenter was used to create three different surface defects. These three levels, representing different indentation pressures, mimic defects that could occur during manufacturing or bearing installation. Indents were placed on inner raceways, the outer raceways, and the roller bodies. After the assembly of the components, different vibration testing methodologies were applied to quantify those types of defects. This paper presents a new envelope analysis approach to monitoring for defects. The paper presents the current Fast Fourier Transform (FFT) testing approach, whereby the machine sensitivity is representative of a typical quality control bearing thresholds. This paper also presents a new, more robust method and analyzed for its suitability in the detection of localized defects.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/1303/1/012022