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APPROXIMATE SOLUTION TECHNIQUE FOR MULTILOBE JOURNAL BEARINGS INCLUDING THERMAL EFFECTS, WITH COMPARISON TO EXPERIMENT.

Publication ,  Journal Article
Knight, JD; Barrett, LE
Published in: ASLE Preprints
December 1, 1982

An approximate solution method for multilobe journal bearings that includes thermal effects is presented. The method is based on the assumption of an axial pressure distribution in the form of a polynomial, which allows the solution of Reynolds' equation by a one-dimensional finite element routine with little loss in accuracy from two-dimensional methods. A first order form of the energy equation for an adiabatic film is used to predict temperatures within the bearing, and the viscosity is determined as an exponential function of temperature. Comparison of solutions obtained by the variable viscosity method to effective viscosity solutions after Lund and Thomsen illustrates discrepancies in operating eccentricity and stiffness coefficients between the two approaches. Good correlation was obtained between the variable viscosity solutions and experimental measurements reported by Tonnesen and Hansen of eccentricity, pressures, and temperatures in a two-axial groove bearing.

Duke Scholars

Published In

ASLE Preprints

Publication Date

December 1, 1982
 

Published In

ASLE Preprints

Publication Date

December 1, 1982