Stress-Based Weibull Method to Select a Ball Bearing and Determine Its Actual Reliability

Since the designed bearing’s reliability of 90% was determined in a lab environment, it does not represent the actual used environment. In this paper, a new methodology to determine the actual reliability that corresponds to the use conditions is offered. This new method is based on the standard met...

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Veröffentlicht in:	Applied sciences 2020-11, Vol.10 (22), p.8100
Hauptverfasser:	Villa-Covarrubias, Baldomero, Piña-Monarrez, Manuel R., Barraza-Contreras, Jesús M., Baro-Tijerina, Manuel
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Ball bearings Contact stresses Design Evaluation Load Mechanical properties Methods Reliability (Engineering) Stress analysis (Engineering) Weibull distribution
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container_title	Applied sciences
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creator	Villa-Covarrubias, Baldomero Piña-Monarrez, Manuel R. Barraza-Contreras, Jesús M. Baro-Tijerina, Manuel
description	Since the designed bearing’s reliability of 90% was determined in a lab environment, it does not represent the actual used environment. In this paper, a new methodology to determine the actual reliability that corresponds to the use conditions is offered. This new method is based on the standard method used to select the ball bearing. The proposed method is based on the two parameters of Weibull distribution, where the shape (β) and scale (η) parameters are both determined from the Hertz contact stresses values, which are generated under the surface of the motionless outer race, and by the forces transmitted between the ball and the outer race. Therefore, the derived reliability is different from the 90% index offered by manufacturers.
doi_str_mv	10.3390/app10228100
format	Article
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subjects	Analysis Ball bearings Contact stresses Design Evaluation Load Mechanical properties Methods Reliability (Engineering) Stress analysis (Engineering) Weibull distribution
title	Stress-Based Weibull Method to Select a Ball Bearing and Determine Its Actual Reliability
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