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2013 (Vol. 6, Issue: 20)
Article Information:

Fuzzy Logic based Model to Predict Maximum Oil-Film Pressure in Journal Bearing

Diyar I. Ahmed, S. Kasolang, Basim A. Khidhir and B.F. Yousif
Corresponding Author:  Diyar I. Ahmed 

Key words:  Fuzzy logic, hydrodynamic lubrication, journal bearing, oil-film pressure, , ,
Vol. 6 , (20): 3871-3878
Submitted Accepted Published
January 22, 2013 March 02, 2013 November 10, 2013
Abstract:

Oil-film pressure response is one of the key parameters that describe the operating conditions in hydrodynamic lubrication regimes. In the present study, a fuzzy logic model is developed to predict the maximum oil-film pressure in hydrodynamic plain journal bearing. In the development of predictive model, journal bearing parameters of rotational speed, bearing load and oil-feed pressure are considered as model independent variables. For this purpose, a number of experiments, based Box-Behnken experiment Design technique (BBD), are performed to observe the maximum oil-film pressure values. The results revealed that the model is able to predict maximum oil-film pressure adequately.
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  Cite this Reference:
Diyar I. Ahmed, S. Kasolang, Basim A. Khidhir and B.F. Yousif, 2013. Fuzzy Logic based Model to Predict Maximum Oil-Film Pressure in Journal Bearing.  Research Journal of Applied Sciences, Engineering and Technology, 6(20): 3871-3878.
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ISSN (Online):  2040-7467
ISSN (Print):   2040-7459
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