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Tribology Transactions Volume 53, 2010 - Issue 6
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Original Articles

Optimized Logarithmic Roller Crowning Design of Cylindrical Roller Bearings and Its Experimental Demonstration

HIROKI FUJIWARA Elemental Technological R & D Center, NTN Corporation, 5-105 Hidamarinooka, Kuwana, Mie, 511-0867, Japan
,
TAKUJI KOBAYASHI Elemental Technological R & D Center, NTN Corporation, 5-105 Hidamarinooka, Kuwana, Mie, 511-0867, Japan
,
TATSUO KAWASE Product Innovation Strategy Department, NTN Corporation, 1-3-17, Kyomachibori, Nishi-ku, Osaka, 550-003, Japan
&
KAZUTO YAMAUCHI Division of Precision Science & Technology and Applied Physics, Graduate School of Engineering, OSAKA University, 2-1 Yamadaoka, Suita, Osaka, 565-0871, Japan
Pages 909-916 | Received 20 Jan 2010, Accepted 20 Jul 2010, Published online: 06 Oct 2010
 
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Abstract

A logarithmic profile is essentially an optimal geometry for rolling machine elements such as bearing rollers and raceways. Under most conditions of loading, it yields lower stresses to give longer endurance. Lundberg first suggested the basic profile, and some researchers followed him by modifying it to satisfy engineering requirements. In this article, the authors propose a mathematical optimization method for logarithmic profiles in roller bearing applications. Moreover, rolling contact fatigue life tests are carried out to make a comparison among logarithmically crowned, standard partially crowned, and modified partially crowned rollers. Results show that the logarithmically crowned rollers are beyond the modified partially crowned rollers in fatigue life, especially in poor lubrication conditions, although the logarithmic rollers require less workload to process the crowning.

Acknowledgments

Review led by Michael Kotzalas

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