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Abstract

The article presents detailed analysis of the conforming contact between a piston and cylinder liner in a high-speed racing engine under extreme operating conditions owing to high loads and operating speeds in excess of 19 000 r/min, resulting in a high sliding velocity of 42 m/s. The analysis indicates contact forces generated in the order of 2.5 kN. The contribution due to fluid film lubrication is found to reside in iso-viscous rigid or elastic regimes of lubrication, which is insufficient to form a coherent lubricant film during some parts of the cycle, such as at top-dead-centre (TDC). The article shows that at combustion, 95 per cent of the contact can remain in boundary or mixed regimes of lubrication. Piston skirt surface modification features are used in conjunction with an electrolytically applied composite coating, Ni[SiC]p to produce advanced cylinder liners to remedy the situation. Detailed numerical analysis shows that significant improvement is achieved in the regime of lubrication condition.

Keywords

piston-to-cylinder bore contact surface modification high performance engines

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References

Sato

Takiguchi

Aihara

Seki

Improvement of piston lubrication in a diesel engine by means of cylinder surface roughness. SAE 2004–01–0604.

Taylor

R. I.

Lubrication, tribology and motorsport. SAE 2002–01–3355.

Knoll

G. D.

Peeken

H. J.

Hydrodynamic lubrication of piston skirts. Trans. ASME, 1982, 104, 504–509.

D. F.

Rhode

S. M.

Ezzat

H. A.

An automotive piston lubrication model. ASLE Trans., 1982, 26, 151–160.

K. P.

C. H.

Goenka

P. K.

Elastohydro-dynamic lubrication of piston skirts. ASME J. Tribol., 1987, 109, 356–362.

Offner

Priebsch

H. H.

Elastic body contact simulation for predicting piston slap induced noise in an IC engine. In Multi-body dynamics: Monitoring and simulation techniques-II (Eds Rahnejat

Whalley

), 2000 (Mechanical Engineering Publications, Bury St Edmunds and London), ISBN 1 86058 253 3.

Balakrishnan

Rahnejat

Transient elastohy-drodynamic lubrication of piston skirt to cylinder liner under combined reciprocating and slapping motions. Proceedings of the Third AIMETA International Tribology Conference, Salerno, Italy, 2002.

Barus

Isothermal, isopiestics and isometrics relative to viscosity. Am. J. Sci., 1893, 45, 87.

Dowson

Higginson

G. R.

The effect of material properties on the lubrication of elastic rollers. J. Mech. Eng. Sci., 1960, 2, 188.

10.

Johns

P. M.

Gohar

Roller bearings under radial and eccentric loads. Tribol. Int., 1981, 14, 131.

11.

Kushwaha

Rahnejat

Transient elasto-hydrodynamic lubrication of finite line conjunction of cam to follower concentrated contact. J. Phys. D: Appl. Phys., 2002, 35 (21), 2872–2890.

12.

Rahnejat

Gohar

Design of profiled taper roller bearings. Tribal. Int., 1979, 11, 269–275.

13.

Balakrishnan

Rahnejat

Isothermal transient analysis of piston skirt-to-cylinder wall contacts under combined axial, lateral and tilting motion. J. Phys. D: Appl. Phys., 2005, 38 (5), 787–799.

Investigation of Reciprocating Conformal Contact of Piston Skirt-to-Surface Modified Cylinder Liner in High Performance Engines

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