The Effects of Engine Oil Rheology on the Oil Film Thickness and Wear Between a Cam and Rocker Follower

1996 ◽  
Author(s):  
B P. Williamson ◽  
J C Bell
Keyword(s):  
Film Thickness ◽  
Engine Oil ◽  
Oil Film

Experimental Investigation of Oil Accumulation in Second Land of Internal Combustion Engines

2005 ◽  
Vol 127 (1) ◽  
pp. 206-212
Author(s):  
T. Icoz ◽  
Z. Dursunkaya
Keyword(s):  
Film Thickness ◽  
Internal Combustion Engines ◽  
Internal Combustion ◽  
Engine Oil ◽  
Combustion Engines ◽  
Oil Consumption ◽  
Oil Accumulation ◽  
Oil Film ◽  
Piston Cylinder ◽  
Total Oil

Blowback of engine oil suspended in combustion gases, when the gas flows from the piston second land back into the combustion chamber, is believed to contribute to oil consumption and hydrocarbon emissions in internal combustion engines. Oil accumulation in the region between top and second compression rings is a factor that influences this phenomenon. The effects of individual parameters, such as oil film thickness and viscosity, however, have still not been understood. The present study was aimed at constructing an experimental setup to study the effect of oil film thickness on oil accumulation in the second land of internal combustion engines. Due to the inherent difficulties of experimentation on production engines, a modeled piston-cylinder assembly was constructed. Total oil accumulation in the modeled second land after a single piston stroke was measured and compared to oil consumption in operating engines.

Development of a Laser Fluorescence Technique For Measuring Piston Ring Oil Film Thickness

1980 ◽  
Vol 102 (2) ◽  
pp. 165-170 ◽  
Author(s):  
L. L. Ting
Keyword(s):  
Light Intensity ◽  
Film Thickness ◽  
Piston Ring ◽  
Laser Fluorescence ◽  
Engine Oil ◽  
Fluorescent Light ◽  
Fluorescence Technique ◽  
Thickness Change ◽  
Oil Film ◽  
Cylinder Sleeve

A single cylinder engine equipped with a transparent cylinder sleeve has been used to develop a technique to make visual investigations of piston ring lubrication behavior and engine oil loss mechanism. This paper describes this apparatus and the development of a laser excited oil fluorescence technique for measuring the oil film thickness change between the piston rings and the transparent cylinder sleeve wall. The amount of oil accumulated in the piston-cylinder clearance spaces above and below the ring pack, and those in the inter-ring spaces, can also be observed. Preliminary results showing oil fluorescence light intensity traces indicate that this technique works very well. Quantitative oil film thickness data should be readily obtainable from these traces once the fluorescent light intensity is calibrated.

A Study on Measurement of Conformability of the Piston Oil Ring on the Cylinder Bore Under Engine Operating Condition by LIF Method Using Optical Fiber

2013 ◽  
Author(s):  
Akemi Ito ◽  
Kazuya Mochiduki ◽  
Koji Kikuhara ◽  
Masatsugu Inui ◽  
Hirotaka Akamatsu
Keyword(s):  
Optical Fiber ◽  
Film Thickness ◽  
Engine Oil ◽  
Sliding Surface ◽  
Oil Consumption ◽  
Ring Groove ◽  
Operating Condition ◽  
Oil Film ◽  
Engine Operating Condition ◽  
Cylinder Bore

Engine oil consumption must be reduced for reducing exhaust gas emissions. It is well known that a cylinder bore shape under engine operating condition affects oil consumption. This study aimed clarifying the conformability of an oil ring against the distorted cylinder bore. Oil film thickness at the sliding surface of oil ring upper and lower rails was successfully measured by LIF method using optical fiber, which was embedded in the oil ring. The piston motion was also measured and compared with measured oil film thickness. It was found that the piston tilting motion affected oil film thickness hence its conformability. It was also found that thicker oil film was found at the following rail than that at former rail, and it was suggested that oil was supplied to the following rail from not only the sliding surface of the former ring but also somewhere, for example, the oil ring groove.

A Correlation Between Engine Oil Rheology and Oil Film Thickness in Engine Journal Bearings

1986 ◽  
Author(s):  
Terence W. Bates ◽  
Brian Williamson ◽  
James A. Spearot ◽  
Chester K. Murphy
Keyword(s):  
Film Thickness ◽  
Journal Bearings ◽  
Engine Oil ◽  
Oil Film

scholarly journals Origin of the tribofilm from MoS2 nanoparticle oil additives: Dependence of oil film thickness on particle aggregation in rolling point contact

Friction ◽  
2020 ◽  
Author(s):  
Hongxing Wu ◽  
Liping Wang ◽  
Guangneng Dong
Keyword(s):  
Film Thickness ◽  
Contact Area ◽  
Point Contact ◽  
Particle Aggregation ◽  
Engine Oil ◽  
Lubrication Mechanism ◽  
Base Oil ◽  
Thickness Increase ◽  
Oil Film ◽  
Film Thickness Increase

Abstract The lubrication effectiveness of MoS2 nanoparticles as an oil additive remains unclear, restricting its application in industry to reduce friction. The goal of this work was to explore the lubrication mechanism of MoS2 nanoparticles as an oil additive. In this study, the oil film thickness behaviors of MoS2 nanoparticles in poly-alpha olefin (PAO4) base oil, PAO4 with 3 wt% dispersant (polyisobutyleneamine succinimide, PIBS), and 0W20 engine oil were investigated using an elastohydrodynamic lubrication (EHL) testing machine. Following the EHL tests, the flow patterns around the contact area and the tribofilm covering rate on contact area were studied using optical microscopy to understand the lubrication mechanism. The results indicate that both the dispersant and nanoparticle aggregation significantly affected the oil film thickness. The expected oil film thickness increase in the case of 0.1 wt% MoS2 in PAO4 base oil was obtained, with an increase from 30 to 60 nm over 15 min at a velocity of 50 mm/s. Flow pattern analysis revealed the formation of particle aggregation on the rolling path when lubricated with 0.1 wt% MoS2, which is associated with a tribofilm coverage rate of 41.5% on the contact area. However, an oil film thickness increase and particle aggregation were not observed during the tests with 0.1 wt% MoS2 blended with 3 wt% PIBS as the dispersant in PAO4 base oil, and for 0.75 wt% MoS2 in 0W20 engine oil. The results suggest that nanoparticles responsible for tribofilm formation originated from aggregates, but not the well-dispersed nanoparticles in point contact. This understanding should aid the advancement of novel lubricant additive design.

A Study on Measurement of Conformability of the Piston Oil Ring on the Cylinder Bore Under Engine Operating Condition by Laser Induced Fluorescence Method Using Optical Fiber

2014 ◽  
Vol 136 (12) ◽  
Author(s):  
Akemi Ito ◽  
Kazuya Mochiduki ◽  
Koji Kikuhara ◽  
Masatsugu Inui ◽  
Hirotaka Akamatsu
Keyword(s):  
Optical Fiber ◽  
Film Thickness ◽  
Laser Induced Fluorescence ◽  
Engine Oil ◽  
Sliding Surface ◽  
Ring Groove ◽  
Operating Condition ◽  
Oil Film ◽  
Engine Operating Condition ◽  
Cylinder Bore

It is known that a cylinder-bore shape affects engine oil consumption. This study aimed clarifying the conformability of an oil-ring under engine operating condition. Oil film thickness at the sliding surface of oil-ring rails was measured by laser induced fluorescence (LIF) method using optical fiber embedded in the oil-ring. Findings showed that the piston tilting motion affected oil film thickness. Furthermore, thicker oil film was found at the following rail than that at former rail. It suggested that oil was supplied to the following rail from not only the former ring sliding surface but also somewhere, for example, the oil ring groove.

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