Predicting the Onset of Cavitation in Automotive Torque Converters—Part II : A Generalized Model

The objective of this investigation was to develop a dimensionless model for predicting the onset of cavitation in torque converters applicable to general converter designs. Dimensional analysis was applied to test results from a matrix of torque converters that ranged from populations comprised of...

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Bibliographic Details
Published in:International journal of rotating machinery 2008, Vol.2008 (2008), p.1-8
Main Authors: Robinette, D. L., Schweitzer, J. M., Maddock, D. G., Anderson, C. L., Blough, J. R., Johnson, M. A.
Format: Article
Language:English
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Summary:The objective of this investigation was to develop a dimensionless model for predicting the onset of cavitation in torque converters applicable to general converter designs. Dimensional analysis was applied to test results from a matrix of torque converters that ranged from populations comprised of strict geometric similitude to those with more relaxed similarities onto inclusion of all the torque converters tested. Stator torque thresholds at the onset of cavitation for the stall operating condition were experimentally determined with a dynamometer test cell using nearfield acoustical measurements. Cavitation torques, design parameters, and operating conditions were resolved into a set of dimensionless quantities for use in the development of dimensionless empirical models. A systematic relaxation of the fundamental principle of dimensional analysis, geometric similitude, was undertaken to present empirical models applicable to torque converter designs of increasingly diverse design parameters. A stepwise linear regression technique coupled with response surface methodology was utilized to produce an empirical model capable of predicting stator torque at the onset of cavitation with less than 7% error for general automotive torque converter designs.
ISSN:1023-621X
1542-3034
DOI:10.1155/2008/312753;http://www.hindawi.com/journals/ijrm/volume-2008/regular.1.html