Skip Nav Destination
ASTM Selected Technical Papers
Rolling Contact Fatigue Testing of Bearing SteelsAvailable to Purchase
By
JJC Hoo
JJC Hoo
1; ;
Acciaierie e Ferriere Lombarde Falck, S.p.A. of Milano
, Italy
Acciaierie di Bolzano, S.p.A. of Bolzano
, Italy
symposium chairman and editor
.
Search for other works by this author on:
ISBN-10:
0-8031-0712-9
ISBN:
978-0-8031-0712-0
No. of Pages:
425
Publisher:
ASTM International
Publication date:
1982
eBook Chapter
Development and Application of the Rolling Contact Fatigue Test Rig Available to Purchase
By
EN Bamberger
,
EN Bamberger
1
Principal engineer, Advanced Bearing Technology, and manager, Bearings, Seals, and Drives Design Technology
, respectively, Aircraft Engine Group, General Electric Co.
, Cincinnati, Ohio 45215
.
Search for other works by this author on:
JC Clark
JC Clark
1
Principal engineer, Advanced Bearing Technology, and manager, Bearings, Seals, and Drives Design Technology
, respectively, Aircraft Engine Group, General Electric Co.
, Cincinnati, Ohio 45215
.
Search for other works by this author on:
Page Count:
22
-
Published:1982
Citation
Bamberger, E, & Clark, J. "Development and Application of the Rolling Contact Fatigue Test Rig." Rolling Contact Fatigue Testing of Bearing Steels. Ed. Hoo, J. 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959 : ASTM International, 1982.
Download citation file:
The rolling contact (RC) fatigue test rig was developed specifically for rapid and inexpensive evaluation of materials and processes for rolling element bearing applications. The simple geometry of the test specimen, a cylindrical bar, makes it ideal for evaluating new materials where only limited quantities of the material may initially be available and also permits precise control of the mechanical and thermal processing of the test specimen.
This paper will discuss the development of the RC rig and will detail some of the major investigatory programs which have been performed in the authors' laboratory. This includes the evaluation of metallic and nonmetallic materials for bearing operation, effects of different metallurgical structures on rolling contact fatigue, and the investigation of unique processes such as ausforming and hollow rolling elements. The results of these investigations will show the relevance of the RC rig to full-scale bearing tests and to actual bearing operation in service. Last, the initial work performed on the second-generation RC rig, a high-speed version capable of surface speeds up to 25 m/s (82 ft/s), permitting operation well into the elastohydrodynamic regime, will be briefly reviewed.
References
1.
Bamberger
, E. N.
, Bearing Design—Historical Aspects, Present Technology and Future Problems
, ASME Century 2 Publication No. H00160, American Society of Mechanical Engineers
, New York
, 1980
, pp. 1-46.2.
Symposium on Testing of Bearings, Forty-Ninth Annual Meeting
, American Society for Testing and Materials
, Philadelphia
, 06
1946
.3.
Macks
, E. F.
, Lubrication Engineering
0024-7154, Vol. 9
, 1953
, pp. 254-258.4.
Barnes
, G. C.
and Ryder
, E. A.
, “A Look at Some Turbine Engine Problems
,” Preprint No. 693, Society of Automotive Engineers
, New York
, 1956
.5.
Moyar
, G. J.
and Morrow
, J. D.
, University of Illinois Bulletin
, Vol. 62
, No. 35
, 11
1964
.6.
Morrow
, J. D.
, Journal of Basic Engineering, A.S.M.E. Transactions
, Vol. 88
, Series D, 09
1966
, pp. 583-588.7.
Lundberg
, G.
and Palmgren
, A.
, Mechanical Engineering Series
, Vol. 1
, No. 3
, 1947
.8.
Thomas
, H. R.
and Hoersch
, V. A.
, “Stress Due to the Pressure of One Elastic Solid Upon Another
,” University of Illinois Bulletin
, 07
1930
.9.
Jones
, A. B.
, Analysis of Stresses and Deflections
, New Departure Bearing Division, General Motors Corp.
, Bristol, Conn.
, 1964
.10.
Bamberger
, E. N.
, Harris
, T. A.
, Kacmarsky
, W. M.
, Moyer
, C. A.
, Parker
, R. J.
, Sherlock
, J. J.
, and Zaretsky
, E. V.
, Life Adjustment Factors for Ball and Roller Bearings—An Engineering Design Guide
, American Society of Mechanical Engineers
, New York
, 1971
.11.
Grubin
, A. N.
, in Investigation of the Contact of Machine Components
, Translation of Russian Book No. 30
, Ketova
Kh. F.
, Ed., Central Scientific Institute for Technology and Mechanical Engineering
, Moscow
, 1949
, Chapter 2.12.
Dowson
, D.
and Higginson
, G. R.
, Journal of Mechanical Engineering Science
0022-2542, Vol. 1
, No. 1
, 1959
, pp. 6-15.13.
Cheng
, H. S.
, Journal of Lubrication Technology
0022-2305, Vol. 92
, Series F, No. 1
, 01
1970
, pp. 155-162.14.
Bamberger
, E. N.
, Journal of Lubrication Technology
0022-2305, Vol. 89
, No. 1
, 01
1967
, pp. 63-75.15.
Bamberger
, E. N.
, “The Production, Testing and Evaluation of Ausformed Ball Bearings, Final Engineering Report
,” Bu-Weps Contract NOw-65-0070-f, Department of the Navy
, Washington, D.C., 06
1966
.16.
Parker
, R. J.
and Zaretsky
, E. V.
, “Rolling Element Fatigue Life of Ausformed M-50 Balls
,” NASA TN D-4954, National Aeronautics and Space Administration, Lewis Research Center
, Cleveland, Ohio
, 12
1968
.17.
Bamberger
, E. N.
, Clark
, J. C.
, Russell
, T. E.
, and Smeaton
, D. A.
, “Axial-Centrifugal Compressor Program, Evaluation of Ausformed Bearings
,” Report No. TR-75-55, U.S. Army Air Mobility R & D Laboratory
, Fort Eustis, Va., 10
1975
.18.
Bamberger
, E. N.
, “Bearing Fatigue Investigation
,” NASA CR 72290, National Aeronautics and Space Administration
, 09
1967
.19.
Bamberger
, E. N.
, “Bearing Fatigue Investigation II
,” 06
1974
.20.
Jones
, A. B.
, American Society of Mechanical Engineers, Transactions
, Vol. 74
, No. 5
, 07
1952
, pp. 695-703.21.
Harris
, T. A.
, A.S.L.E. Transactions
, Vol. II
, No. 4
, 10
1968
, pp. 290-294.22.
Coe
, H. H.
, Parker
, R. J.
, and Scibbe
, H. W.
, Journal of Lubrication Technology
0022-2305, Series F, Vol. 93
, No. 1
, 01
1971
, pp. 47-59.23.
Coe
, H. H.
, Parker
, R. J.
, and Scibbe
, H. W.
, “Performance of 75-Millimeter-Bore Bearings Using Electron-Beam-Welded Hollow Balls with a Diameter Ratio of 1.26
,” NASA TN-D-7869, National Aeronautics and Space Administration
, Cleveland, Ohio
, 1975
.24.
Potts
, J. R.
, “Manufacturing Methods for Production of Hollow-Ball Bearings for Use in Gas Turbine Engines
,” AFML-TR-72-170, AD 904689L, U.S. Air Force, WPAFB
, Dayton, Ohio
, 09
1972
.25.
Nypan
, L. J.
, Coe
, H. H.
, and Parker
, R. J.
, Journal of Lubrication Technology
0022-2305, Series F, Vol. 98
, No. 3
, 07
1976
, pp. 472-475.26.
Bamberger
, E. N.
and Parker
, R. J.
, Journal of Lubrication Technology
0022-2305, Vol. 100
, No. 1
, 01
1978
, pp. 39-46.27.
Nahm
, A. H.
and Bamberger
, E. N.
, Journal of Lubrication Technology
0022-2305, Vol. 102
, No. 4
, 10
1980
, pp. 534-538.28.
Payson
, P.
, The Metallurgy of Tool Steels
, Wiley
, New York
, 1962
.
This content is only available via PDF.
You do not currently have access to this chapter.
Email alerts
Related Chapters
Effect of Test Variables on the Rolling Contact Fatigue of AISI 9310 and VASCO X-2 Steels
Rolling Contact Fatigue Testing of Bearing Steels
Unisteel Testing of Aircraft Engine Bearing Steels
Rolling Contact Fatigue Testing of Bearing Steels
Rolling Contact Fatigue Transformations in Aero Steels: The Effect of Temperature on Microstructural Decay
Bearing Steel Technologies: 12th Volume, Progress in Bearing Steel Metallurgical Testing and Quality Assurance
Rolling Contact Fatigue Evaluation of Advanced Bearing Steels
Rolling Contact Fatigue Testing of Bearing Steels
Related Articles
A 3D Finite Element Study of Fatigue Life Dispersion in Rolling Line Contacts
J. Tribol (October,2011)
Hybrid Bearing Technology for Advanced Turbomachinery: Rolling Contact Fatigue Testing
J. Eng. Gas Turbines Power (January,1996)
Effect of Three Advanced Lubricants on High-Temperature Bearing Life
J. of Lubrication Tech (January,1970)
