Internal Loading Distribution in Statically Loaded Ball Bearings Subjected to a Centric Thrust Load: Numerical Aspects
Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33122
Internal Loading Distribution in Statically Loaded Ball Bearings Subjected to a Centric Thrust Load: Numerical Aspects

Authors: Mário C. Ricci

Abstract:

A known iterative computational procedure is used for internal normal ball loads calculation in statically loaded single-row, angular-contact ball bearings, subjected to a known thrust load, which is applied in the inner ring at the geometric bearing center line. Numerical aspects of the iterative procedure are discussed. Numerical examples results for a 218 angular-contact ball bearing have been compared with those from the literature. Twenty figures are presented showing the geometrical features, the behavior of the convergence variables and the following parameters as functions of the thrust load: normal ball loads, contact angle, distance between curvature centers, and normal ball and axial deflections between the raceways.

Keywords: Ball, Bearing, Static, Load, Iterative, Numerical, Method.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1070307

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1876

References:


[1] Stribeck, R. "Ball Bearings for Various Loads," Trans. ASME 29, 420- 463, 1907.
[2] Sjoväll, H. "The Load Distribution within Ball and Roller Bearings under Given External Radial and Axial Load," Teknisk Tidskrift, Mek., h.9, 1933.
[3] Jones, A. Analysis of Stresses and Deflections, New Departure Engineering Data, Bristol, Conn., 1946.
[4] Rumbarger, J. "Thrust Bearings with Eccentric Loads," Mach. Des., Feb. 15, 1962.
[5] Harris, T. Rolling Bearing Analysis, 4th ed., John Wiley & Sons Inc., New York, 2001.
[6] Ricci, M. C. Ball bearings subjected to a variable eccentric thrust load, DINCON-09 Proceedings of the 8th Brazilian Conference on Dynamics, Control and Applications, May, 18-22, Bauru, Brazil, 2009. ISBN: 978- 85-86883-45-3.
[7] Ricci, M. C. Internal loading distribution in statically loaded ball bearings, ICCCM09 1st International Conference on Computational Contact Mechanics, Program and Abstracts, p. 21-22, Sept. 16-18, Lecce, Italy, 2009.
[8] Ricci, M. C. Internal loading distribution in statically loaded ball bearings subjected to a combined radial and thrust load, including the effects of temperature and fit, Proceedings of World Academy of Science, Engineering and Technology, Volume 57, September 2009, WCSET 2009, Amsterdam, Sept. 23-25, 2009. ISSN: 2070-3724. http://www.waset.org/proceedings.php.
[9] Ricci, M. C. Internal loading distribution in statically loaded ball bearings subjected to a combined radial and thrust load, 6th ICCSM Proceedings of the 6th International Congress of Croatian Society of Mechanics, Sept. 30 to Oct. 2, Dubrovnik, Croatia, 2009. ISBN 978- 953-7539-11-5.
[10] Ricci, M. C. Internal loading distribution in statically loaded ball bearings subjected to a combined radial, thrust, and moment load, Proceedings of the 60th International Astronautical Congress, October, 12-16, Daejeon, South Korea, 2009. ISSN 1995-6258.
[11] Ricci, M. C. Internal loading distribution in statically loaded ball bearings subjected to an eccentric thrust load, Submitted to Mathematical Problems in Engineering, 2009.
[12] Ricci, M. C. Internal loading distribution in statically loaded ball bearings subjected to a combined radial, thrust, and moment load, including the effects of temperature and fit, to be presented at 11th Pan- American Congress of Applied Mechanics, January, 04-10, Foz do Iguaçu, Brazil, 2010.
[13] Hamrock, B. J. and Anderson, W. J. Arched-Outer-Race Ball-Bearing Considering Centrifugal Forces. NASA TN D-6765, 1972.
[14] Hertz, H. "On the Contact of Rigid Elastic Solids and on Hardness," in Miscellaneous Papers, MacMillan, London. 163-183, 1896.
[15] Hamrock, B. J. and Anderson, W. J. Rolling-Element Bearings. NASA RP 1105, 1983.