Y. Kligerman scite author profile

A model is presented to study the potential use of micro-surmaintain hydrodynamic effects even with nominally parallel surface structure in the form of micro pores to improve tribological faces. It is also shown that optimum surface texturing may subproperties of reciprocating automotive components. The Reynolds stantially reduce the friction losses in reciprocating automotive equation and the equation of motion are solved simultaneously for components. a simpl$ed "pistodcylinder" system with surface texturing. The solution provides the time behavior of both the clearance and the KEY WORDS friction force between the "piston ring" and "cylinder liner" sur-

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Experimental Investigation of Laser Surface Texturing for Reciprocating Automotive Components

Ryk¹,

Kligerman

Etsion

2002

Tribology Transactions

429

239

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Improving Tribological Performance of Piston Rings by Partial Surface Texturing

2005

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An analytical model is developed to study the potential use of partial laser surface texturing (LST) for reducing the friction between a piston ring and cylinder liner. The hydrodynamic pressure distribution and the time-dependent clearance between the piston ring and cylinder liner are obtained from a simultaneous solution of the Reynolds equation and the ring equation of motion in the radial direction. The time behavior of the friction force is calculated from the shear stresses in the viscous fluid film and the time-dependent clearance. An intensive parametric investigation is performed to identify the main parameters of the problem. The optimum LST parameters such as dimples depth, texture area density, and textured portion of the nominal contact surface of the piston ring are evaluated.

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Y. Kligerman

A Laser Surface Textured Parallel Thrust Bearing

Analytical and Experimental Investigation of Laser-Textured Mechanical Seal Faces

Friction-Reducing Surface-Texturing in Reciprocating Automotive Components

Experimental Investigation of Laser Surface Texturing for Reciprocating Automotive Components

Improving Tribological Performance of Piston Rings by Partial Surface Texturing

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