Experimental testing and thermal analysis of ball bearings

Document Type

Article

Publication Date

1-1-2013

Abstract

The evolution of temperature with time in a deep-groove ball bearing in an oil-bath lubrication system is studied both experimentally and analytically. The test apparatus is a radially-loaded ball bearing instrumented to measure the frictional torque as well as the transient temperature of the outer race, oil and housing. The mathematical model developed provides a comprehensive thermal analysis of the ball bearing with provision for frictional heat generation, heat transfer processes and thermal expansion of bearing components. Experiments are performed for different speeds and loads to validate the model. The predicted temperatures under different loads and speeds are found to be in close agreement with those measured experimentally. Simulations results indicate that higher rotational speed, oil viscosity and housing cooling rate lead to the larger temperature gradient and thermally-induced preload in ball bearings. © 2012 Elsevier Ltd.

Publication Source (Journal or Book title)

Tribology International

First Page

93

Last Page

103

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