Oil Film Thickness in an Elastic Connecting-Rod Bearing: Comparison Between Theory and Experiment

Bates, T. W.; Fantino, Bernard; Launay, L.; Frêne, Jean

doi:10.1080/10402009008981954

Cited by 33 publications

(21 citation statements)

References 13 publications

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“…Once the effective (average) lubricant temperature in the contact is found one can determine the effective viscosity of the lubricant using equation (12). Using a heat partitioning method described in [30], the temperature rise in the solid surfaces can be calculated, based on the quantity of transferred heat to them as:…”

Section: Figure 3: Heat Transfer Within the Contactmentioning

confidence: 99%

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Effect of cylinder deactivation on the tribo-dynamics and acoustic emission of overlay big end bearings

Mohammadpour

Rahmani

Rahnejat

2014

Proceedings of the Institution of Mechanical Engineers, Part K:

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The paper presents an integrated tribo-dynamics analysis of elliptic bore overlay big end bearings of internal combustion engines. The analysis focuses on bearing stability, frictional power loss and acoustic emission from these bearings, particularly with cylinder deactivation (CDA) with larger fluctuations in engine loading. The integrated approach represents a multiphysics analysis, not hitherto reported in literature, particularly under CDA. The analysis shows that CDA makes marginal differences in parasitic frictional losses in engine bearing performance and any significant gain would depend on the brake specific fuel consumption. It is also shown that sufficient swept volume with retained residual exhaust gas charge within the deactivated cylinders can ensure bearing whirl stability. Partially deactivated engine configurations exhibit a lower average steady noise emission, but with a higher degree of transient content. This suggests that there would be a greater contribution to engine rumble with deactivated cylinders. Measures along the semi-major and semi-minor directions of elliptic bore KeywordsCentre of mass of the connecting rodContact clearance along the semi-major axis Contact clearance along the semi-minor axis

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Section: Figure 3: Heat Transfer Within the Contactmentioning

confidence: 99%

“…The first important aspect to take into account is the dynamic nature of big end bearing response under fluctuating loads. Bates et al [12] presented an experimental investigation and a theoretical model for dynamically loaded big end bearings. They neglected the effect of any distortion or lubricant cavitation.…”

Section: -Introductionmentioning

confidence: 99%

Effect of cylinder deactivation on the tribo-dynamics and acoustic emission of overlay big end bearings

Mohammadpour

Rahmani

Rahnejat

2014

Proceedings of the Institution of Mechanical Engineers, Part K:

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show abstract

“…The coniparisons were made for several engine oils, both singlc grade (Newtonian) and multigrade (non-Newtonian) uridcr scvcr;rl load conditions for both the main and the connect- (1992,1993) have also used the TCM to measure minimum bearing oil film thickness (MBOFT) in engine bearings and to compare their results to analytical predictions obtained using analyses of various degrees of sophistication. Bates, et al, (1990) made comparisons for a connecting rod bearing. They used short bearing theory with and without elastic deformations and considered only Newtonian single grade engine oils.…”

Section: Introductionmentioning

confidence: 99%

Comparison between Theoretical Calculations and Oil Film Thickness Measurements Using the Total Capacitance Method for Crankshaft Bearings in a Firing Engine

Paranjpe

Tseregounis

Viola

2000

Tribology Transactions

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“…The conjunctional gap shape (i.e. film thickness, h) and the variation of lubricant dynamic viscosity  are required for the solution of equation (9).…”

Section: Generated Lubricant Pressuresmentioning

confidence: 99%

“…Bates et al [9] presented an experimental investigation and a theoretical model for dynamically loaded big end bearings. They neglected the effect of any distortion or lubricant cavitation.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Cylinder De-Activation on Thermo-Friction Characteristics of the Connecting Rod Bearing in the New European Drive Cycle (NEDC)

Mohammadpour¹,

Rahmani²,

Rahnejat³

2014

SAE Technical Paper Series

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This paper presents an investigation of Cylinder De-Activation (CDA) technology on the performance of big end bearings. A multi-physics approach is used in order to take into account more realistic dynamic loading effects on the tribological behavior. The power loss, minimum film thickness and maximum temperature of big end bearings have been calculated during maneuver pertaining to the New European Driving Cycle (NEDC). Results show that bearing efficiency runs contrary to efficiency gained through combustion and pumping losses. Under CDA mode, the power loss of big end bearings is more than the power loss under engine normal mode. The problem is predominant at higher engine speeds and higher Brake mean Effective Pressures (BMEP) in active cylinders. It is also observed that the minimum film thickness is reduced under the CDA mode. This can affect wear performance. In addition, same behavior is noted for the maximum temperature rise which is higher under CDA.

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Oil Film Thickness in an Elastic Connecting-Rod Bearing: Comparison Between Theory and Experiment

Cited by 33 publications

References 13 publications

Effect of cylinder deactivation on the tribo-dynamics and acoustic emission of overlay big end bearings

Effect of cylinder deactivation on the tribo-dynamics and acoustic emission of overlay big end bearings

Comparison between Theoretical Calculations and Oil Film Thickness Measurements Using the Total Capacitance Method for Crankshaft Bearings in a Firing Engine

The Effect of Cylinder De-Activation on Thermo-Friction Characteristics of the Connecting Rod Bearing in the New European Drive Cycle (NEDC)

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