Observation of oil film under ElastoHydrodynamic Lubrication conditions under shear degradation in poly-α-olefin synthetic oil using metallocene catalyst.

The effect of single-sided and double-sided harmonic surface waviness on the film thickness, pressure, and temperature oscillations in an elastohydrodynamically lubricated eccentric-tappet pair has been investigated in relation to the eccentricity and the waviness wavelength. The results show that, during one working cycle, the waviness causes significant fluctuations of the oil film, pressure, and temperature, as well as a reduction in minimum film thickness. Smaller wavelength causes more dramatic variations in oil film. The fluctuations of the pressure, film thickness, temperature, and traction coefficient caused by double-sided waviness are nearly the same compared with the single-sided waviness, but the variations are less intense.

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Effect of tooth waist order parameters of double involute gears on lubrication performance of gear drive

Industrial Lubrication and Tribology ◽

10.1108/ilt-09-2015-0133 ◽

2016 ◽

Vol 68 (6) ◽

pp. 671-675 ◽

Cited By ~ 1

Author(s):

Zhimin Fan ◽

Wanfeng Zhou ◽

Ruixue Wang ◽

Na Wang

Keyword(s):

Elastohydrodynamic Lubrication ◽

Reference Value ◽

Tooth Profile ◽

Order Parameters ◽

Content Type ◽

Oil Film ◽

Gear Drive ◽

Involute Gear ◽

Lubrication Performance ◽

Involute Gears

Purpose The purpose of this paper is to derive a new lubrication model of double involute gears drive and study the effect of the tooth waist order parameters of double involute gears on lubrication performance. Design/methodology/approach The new lubrication model of double involute gears drive was established according to the meshing characteristics of double involute gears drive and the finite length line contact elastohydrodynamic lubrication theory. Numerical calculation of the lubrication model of gear drive was conducted using the multigrid method. Findings The results show that the oil film necking phenomenon and the oil film pressure peak emerged at the tooth waist order area and the tooth profile ends, and when compared with involute gear, the lubrication performance at the tooth waist order area is better than that at the tooth profile ends. The effect of tooth waist order parameters on lubrication performance at the tooth waist order area was greater than that at other areas. Originality/value This research will promote the application of the double involute gear as soon as possible, and it has the reference value for other types of gears.

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Theoretical and experimental studies of the oil film in lubricated point contact

Proceedings of the Royal Society of London Series A - Mathematical and Physical Sciences ◽

10.1098/rspa.1966.0112 ◽

1966 ◽

Vol 291 (1427) ◽

pp. 520-536 ◽

Cited By ~ 165

Keyword(s):

Surface Layer ◽

Film Thickness ◽

Strong Evidence ◽

Experimental Studies ◽

Point Contact ◽

Elastohydrodynamic Lubrication ◽

Experimental Results ◽

Point Contacts ◽

Previous Theory ◽

Oil Film

A technique using Newton’s rings for mapping the oil film of lubricated point contacts is described. A theoretical value for the film thickness of such contacts in elastohydrodynamic lubrication is derived. The experimental results give the exit constriction predicted by previous theory but never shown in detail. The comparison of theoretical and experimental oil film thicknesses, which is satisfactorily accurate, gives strong evidence for a viscous surface layer some 1000Å thick. This film agrees with the known ‘lubricating power’ of the various oils tested.

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Analysis of Tribological Performance of Piston Ring Lubrication

ASME 2011 Internal Combustion Engine Division Fall Technical Conference ◽

10.1115/icef2011-60036 ◽

2011 ◽

Author(s):

Yibin Guo ◽

Wanyou Li ◽

Dequan Zou ◽

Xiqun Lu ◽

Tao He

Keyword(s):

Film Thickness ◽

Friction Force ◽

Power Loss ◽

Piston Ring ◽

Design Parameters ◽

Oil Film ◽

Starved Lubrication ◽

Piston Ring Lubrication ◽

Cylinder Bore ◽

Lubrication Conditions

In this paper a mixed lubrication model considering lubricant supply conditions on cylinder bore has been developed for the piston ring lubrication. The numerical procedures of both fully flooded and starved lubrication were included in the model. The lubrication equations and boundary conditions at the end of strokes were discussed in detail. The effects of piston ring design parameters, such as ring face profile and ring tension, on oil film thickness, friction force and power loss under fully flooded and starved lubrication conditions due to available lubricant supply on cylinder bore were studied. The simulation results show that the oil available in the inlet region of the oil film is important to the piston ring friction power loss. With different ring face crown heights and tensions, the changes of oil film thickness and friction force were apparent under fully flooded lubrication, but almost no changes were found under starved lubrication except at the end of a stroke. In addition, the oil film thickness and friction force were affected evidently by the ring face profile offsets under both fully flooded and starved lubrication conditions, and the offset towards the combustion chamber made a large contribution to forming thicker oil film during the expansion stroke. So under different lubricant supply conditions on the cylinder bore, the ring profile and tension need to be adjusted to reduce the friction and power loss. Moreover, the effects of lubricant viscosity, surface composite roughness, and engine operating speed on friction force and power loss were also discussed.

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Size effect on thermal elastohydrodynamic lubrication of industrial chain bush-pin hinge pair

Industrial Lubrication and Tribology ◽

10.1108/ilt-10-2018-0369 ◽

2019 ◽

Vol 71 (9) ◽

pp. 1080-1085 ◽

Cited By ~ 2

Author(s):

Mingyu Zhang ◽

Jing Wang ◽

Yi Liu ◽

Longjie Dai ◽

Zhaohua Shang

Keyword(s):

Friction Coefficient ◽

Film Thickness ◽

Temperature Rise ◽

Elastohydrodynamic Lubrication ◽

Curvature Radius ◽

Line Contact ◽

Content Type ◽

Oil Film ◽

Industrial Chain ◽

Infinite Line

Purpose The purpose of this paper is to use elastohydrodynamic lubrication (EHL) theory to study the variation of the equivalent curvature radius “R” on the change of oil film thickness, pressure, temperature rise and friction coefficient in the contact zone between bush-pin in industrial chain drive. Design/methodology/approach In this paper, the contact between bush and pin is simplified as infinitely long line contact. The lubrication state is studied by numerical simulation using steady-state line contact thermal EHL. The two constitutive equations, namely, Newton fluid and Ree–Eyring fluid are used in the calculations. Findings It is found that with the increase of equivalent curvature radius, the thickness of oil film decreases and the temperature rise increases. Under the same condition, the friction coefficient of Newton fluid is higher than that of Ree–Eyring fluid. When the load increases, the oil film thickness decreases, the temperature rise increases and the friction coefficient decreases; and the film thickness increases with the increase of the entraining speed under the condition “R < 1,000 mm”. Research limitations/implications The infinite line contact assumption is only an approximation. For example, the distances between the two inner plates are 5.72 mm, by considering the two parts assembled into the inner plates, the total length of the bush is less than 6 mm. The diameter of the pin and the bore diameter of the bush are 3.28 and 3.33 mm. However, the infinite line contact is also helpful in understanding the general variation of oil film characteristics and provides a reference for the future study of finite line contact of chain problems. Originality/value The change of the equivalent radius R on the variation of the oil film in the contact of the bush and the pin in industrial chain drive was investigated. The size effect influences the lubrication characteristic greatly in the bush-pin pair.

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Effect of Thermal Properties of a Coated Elastohydrodynamic Lubrication Line Contact Under Various Slide-to-Roll Ratios

Journal of Heat Transfer ◽

10.1115/1.4036078 ◽

2017 ◽

Vol 139 (7) ◽

Cited By ~ 3

Author(s):

Huaiju Liu ◽

Caichao Zhu ◽

Zonglin Gu ◽

Zhanjiang Wang ◽

Jinyuan Tang

Keyword(s):

Mechanical Properties ◽

Thermal Properties ◽

Elastohydrodynamic Lubrication ◽

Temperature Fields ◽

Line Contact ◽

Oil Film ◽

Line Contacts ◽

Energy Equations ◽

Thermal Conductivities

A numerical thermal elastohydrodynamic lubrication (EHL) model is developed for coated line contacts by considering both the mechanical properties and the thermal properties of the coating and the substrate. The temperature fields within the oil film and within the solids are solved by deriving the energy equations for the solids and the oil film. Heat continuity conditions are satisfied at the interfaces between the solids and the oil film, and the coating/substrate interfaces. Effects of the slide-to-roll ratio (SR), the thermal conductivities of the coating bodies, and the oil film on temperature fields are studied.

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Stress distribution of a coated film with an interlayer under elastohydrodynamic lubrication conditions

Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology ◽

10.1243/13506501jet534 ◽

2009 ◽

Vol 223 (3) ◽

pp. 553-562 ◽

Cited By ~ 7

Author(s):

T Fujino ◽

K Iwamoto ◽

N Akuzawa ◽

K Tanaka

Keyword(s):

Stress Distribution ◽

Elastohydrodynamic Lubrication ◽

Coated Film ◽

Lubrication Conditions

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A full numerical solution to the coupled cam–roller and roller–pin contact in heavily loaded cam–roller follower mechanisms

Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology ◽

10.1177/1350650117746899 ◽

2017 ◽

Vol 232 (10) ◽

pp. 1273-1284 ◽

Cited By ~ 5

Author(s):

Shivam S Alakhramsing ◽

Matthijn B de Rooij ◽

Dirk J Schipper ◽

Mark van Drogen

Keyword(s):

Elastohydrodynamic Lubrication ◽

Friction Model ◽

Line Contact ◽

Transient Effects ◽

Power Losses ◽

Lubricated Contacts ◽

Finite Line Contact ◽

Finite Line ◽

Lubrication Characteristics ◽

Lubrication Conditions

In cam–roller follower units two lubricated contacts may be distinguished, namely the cam–roller contact and roller–pin contact. The former is a nonconformal contact while the latter is conformal contact. In an earlier work a detailed transient finite line contact elastohydrodynamic lubrication model for the cam–roller contact was developed. In this work a detailed transient elastohydrodynamic lubrication model for the roller–pin contact is developed and coupled to the earlier developed cam–roller contact elastohydrodynamic lubrication model via a roller friction model. For the transient analysis a heavily loaded cam–roller follower unit is analyzed. It is shown that likewise the cam–roller contact, the roller–pin contact also inhibits typical finite line contact elastohydrodynamic lubrication characteristics at high loads. The importance of including elastic deformation for analyzing lubrication conditions in the roller–pin contact is highlighted here, as it significantly enhances the film thickness and friction coefficient. Other main findings are that for heavily loaded cam–roller follower units, as studied in this work, transient effects and roller slippage are negligible, and the roller–pin contact is associated with the highest power losses. Finally, due to the nontypical elastohydrodynamic lubrication characteristics of both cam–roller and roller–pin contact numerical analysis becomes inevitable for the evaluation of the film thicknesses, power losses, and maximum pressures.

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