Theoretical modelling of cavitation in piston ring lubrication

Priest, Martin; Dowson, D.; Taylor, C. M.

doi:10.1243/0954406001523092

Cited by 79 publications

(75 citation statements)

References 17 publications

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“…and, it was also assumed that pressure in the divergent part of the gap cannot drop below the saturation pressure: p oil ≥ p cavit (the so called Reynolds cavitation conditions [21]). …”

Section: Model Of Oil Filmmentioning

confidence: 99%

Mathematical Model of Piston Ring Sealing in Combustion Engine

Koszałka

Guzik

2015

Polish Maritime Research

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“…and, it was also assumed that pressure in the divergent part of the gap cannot drop below the saturation pressure: p oil ≥ p cavit (the so called Reynolds cavitation conditions [21]). …”

Section: Model Of Oil Filmmentioning

confidence: 99%

Mathematical Model of Piston Ring Sealing in Combustion Engine

Koszałka

Guzik

2015

Polish Maritime Research

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“…It is noted that for the Elrod and Coyne model, a contact angle of p/2 is assumed and the ratio h=h 1 was calculated as a function of the capillary number N ¼ 3gU c 1=3 using curve fits produced by Priest et al [33] for the experimental work of Taylor [34].…”

Section: Comparison With Cavitation Modelsmentioning

confidence: 99%

Cavitation Bubble Measurement in Tribological Contacts Using Digital Holographic Microscopy

et al. 2015

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The use of advanced measurement techniques such as the digital holography method described in this paper improves the understanding of the cavitation phenomenon in tribological contacts such as the sliding contact of the piston ring-cylinder liner conjunction. The paper describes the use of digital holography measurement technique to measure cavitation bubble formation and thickness. The position of observed lubricant film rupture preceding the cavitation region is compared with some commonly predicted boundary often used with Reynolds equation. The experimental results indicate that the Reynolds and Elrod boundary conditions are the most suitable for the investigated sliding contact conditions.

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“…[2]. This condition is often encountered if the machine elements in relative motion are separated by a lubricating film [3] (e.g.…”

Section: Introductionmentioning

confidence: 99%

“…This leads to transition of fluid from liquid form to gas-liquid mixture [5]. Different aspects of the ring-liner cavity formation and the advantages of various predictive techniques are well explained by Priest et al [2]. Arcoumanis et al [6] and Dhunput et al [7] used an experimental test rig to investigate the transient behaviour of the cavitation streams as well as their development through the TDC position.…”

Section: Introductionmentioning

confidence: 99%

Cavitation induced starvation for piston-ring/liner tribological conjunction

Chong

Teodorescu

Vaughan

2011

Tribology International

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The study investigates the mechanism of ring-liner lubrication in the vicinity of the top and bottom dead centres of an internal combustion engine. Predicting lubricant transient behaviour is critical when the inlet reversal leads to thin films and inherent metal-to-metal interaction. It was found that the cavitation, which is located at the trailing edge of the contact before reversal, briefly survives after reversal as a confined bubble at the leading edge. This depletes the film promoting starvation. Several algorithms were compared. It is concluded that the lubricant film is thinner than initially thought.Keywords: Piston ring, lubrication, tribology, Elrod cavitation algorithm, cavitation, starvationViscostiy-temperature index (-) T Temperature

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Theoretical modelling of cavitation in piston ring lubrication

Cited by 79 publications

References 17 publications

Mathematical Model of Piston Ring Sealing in Combustion Engine

Mathematical Model of Piston Ring Sealing in Combustion Engine

Cavitation Bubble Measurement in Tribological Contacts Using Digital Holographic Microscopy

Cavitation induced starvation for piston-ring/liner tribological conjunction

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