V. N. Constantinescu scite author profile

V. N. Constantinescu

5Publications

222Citation Statements Received

0Citation Statements Given

How they've been cited

394

216

How they cite others

Affiliations

University of Bucharest, Institute of Applied Mechanics, Romanian Academy

Publications

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On Turbulent Lubrication

Constantinescu¹

1959

Proceedings of the Institution of Mechanical Engineers

119

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The paper concerns the hydrodynamic turbulent motion in the lubricant layer. Proceeding from the Reynolds equations and introducing the approximations currently used in lubrication problems, owing to the lubricant film thickness, the general motion equations for turbulent lubrication are written. Using the Prandtl mixing length hypothesis, exact and approximate solutions are obtained for the velocity distribution into the lubricant layer. The results are discussed by pointing out the pressure gradient and the Reynolds number influence on the velocity distributions, as well as the differences with respect to the laminar flow. In order to obtain simple formulae, the exact dependence of the rate of flow on the pressure gradient into a dimensionless form is replaced by a linear relation, the slope of which depends on the Reynolds number. This approximation allows the obtainment of the pressure differential equation under a simple form. The pressure equation is integrated in case of journal bearings, by assuming a constant or a variable viscosity of the lubricant. The results are compared to the experimental data obtained by M. I. Smith and D. D. Fuller and the good qualitative agreement is pointed out.

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Operating Characteristics of Journal Bearings in Turbulent Inertial Flow

Constantinescu¹,

Galetuse²

1982

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A numerical method for solving the lubrication equations including an iterative procedure to account for the inertial effects is outlined, together with appropriate boundary conditions for film rupture. Data concerning the operating characteristics of full journal bearings are provided, function of length/diameter ratio, clearance ratio, Reynolds number, and eccentricity ratio. As compared to other existing numerical procedures, the present method has the main advantage that it can be easily implemented to any existing program for calculating the operating characteristics of a bearing in laminar and turbulent flow. Moreover, it was found that the first iteration gives sufficiently accurate results, so that convergence problems related to the iteration procedure (which may appear when the product between the Reynolds number and the clearance ratio is very large) does not alter its practical utility.

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Analysis of Bearings Operating in Turbulent Regime

Constantinescu

1962

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Laminar Viscous Flow

Constantinescu¹

1995

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Combined thin-film and Navier–Stokes analysis in high Reynolds number lubrication

Frêne

Arghir

Constantinescu

2006

Tribology International

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