Open Access
Reevaluation of the stress-life relation in rolling-element bearings
Richard J. Parker,E. V. Zaretsky +1 more
TLDR
In this article, four groups of 12.7 millimeter diameter vacuum-degassed AISI 52100 balls were tested, each at a maximum Hertz stress in the range of 4.5 times 10-to-9th power to 6.0 times 10 to 9th power N/m2.Abstract:
Four groups of 12.7 millimeter diameter vacuum-degassed AISI 52100 balls were tested, each at a maximum Hertz stress in the range of 4.5 times 10 to 9th power to 6.0 times 10 to 9th power N/m2. Tests were run in the five-ball fatigue tester at a contact angle of 30 deg and a shaft speed of 10,000 rpm. The 10 percent fatigue lives at the four stress levels indicated that fatigue life is inversely proportional to maximum Hertz stress raised to the power of 12. This result agrees with a survey of the literature which suggests that a stress-life exponent of approximately 12 is typical of vacuum-processed bearing steels rather than the exponent of 9 which has been generally accepted by the bearing industry.read more
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Bibliography of information on mechanics of structural failure (hydrogen embrittlement, protective coatings, composite materials, NDE)
TL;DR: In this paper, the authors present a bibliography consisting of approximately 1,600 reference citations related to four problem areas in the mechanics of failure in aerospace structures: hydrogen embrittlement, protective coatings, composite materials, and non-destructive evaluation.
Book
Rolling Bearing Steels: A Technical and Historical Perspective
TL;DR: In this paper, the chemical, metallurgical and physical aspects of bearing steels and their effect on rolling bearing life and reliability are summarized and the single most important variable that has significantly increased bearing lifetime and reliability is vacuum processing of bearing steel.
Journal ArticleDOI
Comparison of Life Theories for Rolling-Element Bearings
TL;DR: In this paper, a critical analysis comparing the results of different life theories and discussing their implications in the design and analysis of rolling-element bearings is presented, using stress fields obtained from three-dimensional, finite-element analysis of a ball in a nonconforming race under varying load.
Journal ArticleDOI
Gigacycle rolling contact fatigue of bearing steels: A review
TL;DR: In this paper, a comprehensive review is provided for cyclic fatigue loading experienced by the subsurface volume of rolling contact fatigue (RCF)-affected material, and a detailed analysis of the microstructural evolution in the sub-surface region is presented.
References
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Journal ArticleDOI
On Competing Failure Modes in Rolling Contact
TL;DR: In this paper, the authors classified rolling contact failures according to their failure mode as wear, plastic flow, fatigue, and bulk failures, with the last class arising outside the immediate contact area.
Effect of hardness and other mechanical properties on rolling-contact fatigue life of four high-temperature bearing steels
TL;DR: In this article, the rolling contact fatigue life of groups of AISI M-1, M-50, Halmo, and WB-49 alloy steel balls tempered to various hardness levels was determined at room temperature.
Journal ArticleDOI
Influence of Water on Fatigue-Failure Location and Surface Alteration During Rolling-Contact Lubrication
P. Schatzberg,I. M. Felsen +1 more
A Study of Some Factors Affecting Rolling-Contact Fatigue Life
TL;DR: In this paper, a series of investigations using the fatigue spin rig to study the effect of several factors contributing to rolling contact fatigue life is summarized, and the results for ten different bearing materials are presented.