The application of large-diameter bearing rings and the thereof inherited low stiffness make them susceptible to local distortions caused by their surrounding structures, which are often under heavy loads. The standard accepted design criteria for these bearings are based on the estimation of the internal load distribution of the bearing, under the assumption of rigid circular and flat supporting structures, that keep the bearing inner and outer races in circular, flat, i.e., not deformed shapes. However, in the presence of structural distortions, the element load distribution can be severely altered and cannot be predicted via the standard design criteria. Therefore, the application of large-diameter ball and roller bearing rings as the critical components in rotating machines becomes more of a design task than making a catalog selection. The analytical and finite element approach for fatigue life prediction of such a bearing application is presented. The undertaken approach and the results are illustrated based on the analysis and fatigue life simulation of the computed tomography scanner’s main rotor bearing. It has been demonstrated that flexibility of the rings can significantly reduce the fatigue life of the ball bearing.
Skip Nav Destination
e-mail: j.sawicki@csuohio.edu
Article navigation
March 2008
Research Papers
Fatigue Life Prediction for Large-Diameter Elastically Constrained Ball Bearings
Jerzy T. Sawicki,
Jerzy T. Sawicki
Center for Rotating Machinery Dynamics and Control,
e-mail: j.sawicki@csuohio.edu
Cleveland State University
, Cleveland, OH 44115-2425
Search for other works by this author on:
Ronald B. Sharpless
Ronald B. Sharpless
Search for other works by this author on:
Jerzy T. Sawicki
Center for Rotating Machinery Dynamics and Control,
Cleveland State University
, Cleveland, OH 44115-2425e-mail: j.sawicki@csuohio.edu
Samuel A. Johansson
John H. Rumbarger
Ronald B. Sharpless
J. Eng. Gas Turbines Power. Mar 2008, 130(2): 022506 (8 pages)
Published Online: March 5, 2008
Article history
Received:
April 26, 2007
Revised:
May 10, 2007
Published:
March 5, 2008
Citation
Sawicki, J. T., Johansson, S. A., Rumbarger, J. H., and Sharpless, R. B. (March 5, 2008). "Fatigue Life Prediction for Large-Diameter Elastically Constrained Ball Bearings." ASME. J. Eng. Gas Turbines Power. March 2008; 130(2): 022506. https://doi.org/10.1115/1.2772632
Download citation file:
Get Email Alerts
Cited By
Temperature Dependence of Aerated Turbine Lubricating Oil Degradation from a Lab-Scale Test Rig
J. Eng. Gas Turbines Power
Multi-Disciplinary Surrogate-Based Optimization of a Compressor Rotor Blade Considering Ice Impact
J. Eng. Gas Turbines Power
Experimental Investigations on Carbon Segmented Seals With Smooth and Pocketed Pads
J. Eng. Gas Turbines Power
Related Articles
Vibration Modeling of a Rigid Rotor Supported on the Lubricated Angular Contact Ball Bearings Considering Six Degrees of Freedom and Waviness on Balls and Races
J. Vib. Acoust (February,2012)
Auxiliary Bearing Life Prediction Using Hertzian Contact Bearing
Model
J. Vib. Acoust (April,2006)
The Impact of Oil and Sealing Air Flow, Chamber Pressure, Rotor Speed, and Axial Load on the Power Consumption in an Aeroengine Bearing Chamber
J. Eng. Gas Turbines Power (January,2005)
Vibration Monitoring and Damage Quantification of Faulty Ball Bearings
J. Tribol (October,2005)
Related Chapters
Development of New Process and Product Monitoring Technologies for the Manufacturing of High Value Alloy Steels for Use in Critical Applications
Bearing and Transmission Steels Technology
Precessional Slip and Microinclusion Effect on Fatigue Life of Bearing Rolling Element: An Integrated Life Estimation Model through Experimental and Analytical Investigation
Bearing and Transmission Steels Technology
NASA Five-Ball Fatigue Tester—Over 20 Years of Research
Rolling Contact Fatigue Testing of Bearing Steels