The aim of this paper is to review theoretical and experimental work undertaken on the design and performance assessment of bearings in reciprocating machinery. The review details the most recent developments in theoretical approaches to design and also describes the practical work that has been undertaken to validate theoretical models. The limitations of both areas of work are identified.
GrenteCh.LigierJ. L.ToploskyJ.BonneauD.The consequence of performance increases of automotive engines on the modelisation of main and connecting rod bearings.In Proceedings of Leeds-Lyons Symposium on Tribology, 2000, Elsevier Tribology Series 39.
2.
BookerJ. F.Dynamically loaded journal bearings—mobility method of solutionTrans. ASME, J. Basic Engng, Ser. D, September 1965, 187, 537.
3.
OcvirkF. W.Short bearing approximation for full journal bearings. NASA Technical Note 2808, 1952.
4.
BatesT. W.EvansP. G.Effect of oil rheology on journal bearing performance. Part 1: Instrumentation of the big-end bearing of a fired engine. In Proceedings of JSLE International Tribology Conference, Tokyo, 8-10 July 1985, Vol. 2, pp. 445–450.
5.
PinkusO.SternlichtB.Theory of Hydrodynamic Lubrication, 1961 (McGraw-Hill, New York).
6.
AkersA.MichaelsonS.CameronA.Stability contours for a whirling finite journal bearingTrans. ASME, J. Lubrication Technol., 1971, 93 (1), 177.
7.
CampbellJ.LoveP. P.MartinF. A.RafiqueS. O.Bearings for reciprocating machinery: A review of the present state of theoretical, experimental and service knowledgeProc. Instn Mech. Engrs, Part A: J. Power and Energy, 1967, 182 (3A), 51–74.
8.
WarnerP. C.Static and dynamic properties of partial journal bearingsTrans. ASME, J. Basic Engng, Ser. D, 1963, 85, 247.
9.
RossJ. M.SlaymakerR. R.Journal center orbits in piston engine bearingsTrans. Soc. Automot. Engrs, 1969, 78, paper 690114, 548–573.
10.
CravenA. H.HolmesR.The vibration of engine crankshafts—a fast numerical solutionInt. J. Numer. Meth., 1972, 5, 17–24.
11.
GoodwinG.HolmesR.On the continuous monitoring of oil-film thickness in an engine bearing. Proceedings of IMechE Combustion Engines Group, 1978, Vol. 192, pp. 371–376.
12.
RitchieG. S.The prediction of journal loci in dynamically loaded internal combustion engine bearingsWear, 1975, 35, 291–297.
13.
FantinoB.GodetM.FreneJ.Dynamic behaviour of an elastic connecting-rod bearing—theoretical studyTrans. Soc. Automot. Engrs, 1983, paper SP539.
14.
MartinF. A.Developments in engine bearing designTribology Int., June 1983, 16 (3).
15.
MoesH.SikkesE. G.BosmaR.Dynamic analysis of diesel engine main bearings.In Proceedings of 10th Leeds—Lyon Symposium on Tribology, September 1983.
16.
DedeM.HolmesR.On prediction and experimental assessment of engine-bearing performanceTribology Int., October 1984, 17 (5), 251–258.
17.
FantinoB.FreneJ.du ParquetJ.Viscosity effects on the dynamic characteristics of an elastic engine bearing. SAE paper 852074, 1985, pp. 1–12.
18.
BatesT. W.FantinoB.LaunayL.FreneJ.Oil film thickness in an elastic connecting-rod bearing: Comparison between theory and experimentTribology Trans., 1990, 33 (2), 254-266 (also presented at 44th Annual Meeting STLE, Atlanta, 1-4 May 1989).
19.
FantinoB.FreneJ.Comparison of dynamic behaviour of elastic connecting rod bearing in both petrol and diesel enginesTrans. ASME, J. Tribology, 1985, 107, 87–91.
20.
GoenkaP. K.OhK. P.An optimum short bearing theory for the elastohydrodynamic solution of journal bearings. In Proceedings of Joint ASME/ASLE Lubrication Conference, Atlanta, Georgia, 1-10 October 1985, paper 85-Trib-52.
21.
PalR.SinhasanR.SinghD. V.A numerical integration scheme to find motion trajectory of big-end bearing trajectoryJ. Instn Engrs India, Mech. Engng Div., 1986, 66 (6), 166–172.
22.
PalR.SinhasanR.SinghD. V.Analysis of a big-end bearing—a finite element approachWear, 1987, 114, 275–293.
23.
PalR.SinhasanR.SinghD. V.Analysis of big-end bearing having non-Newtonian fluidsSTLE Tribology Trans., 1987, 31 (2), 296–302. Presented at 42nd Annual Meeting, Anahelm, California, 11-14 May 1987.
24.
SinghD. V.SinhasanR.PalR.Performance characteristics of an ungrooved big-end bearing with misalignmentSTLE Tribology Trans., 1989, 32 (2), 234–238.
WilliamsonB. P.Enhancement of journal load bearing capacity by polymer containing oils. SAE paper 971697, 1997.
27.
Conway-JonesJ. M.MartinF. A.GojonR.Refinement of engine bearing design techniquesTribology Int., April 1991, 24 (2), 119–127.
28.
ChangH.Engine bearing contact pressure simulation with thermal effectsTrans. Soc. Automot. Engrs, 1991, 100 (3), paper 910159, 154–161.
29.
GoenkaP. K.ParanjpeR. S.A review of engine bearing analysis methods at General Motors. Engine Tribology SAE International Congress, Detroit, 24-28 February 1992, paper SP-919, ISBN 1-56091-236-7.
30.
ChoiJ.-K.HurK.HanD. C.Oil film thickness in engine connecting-rod bearing: Comparison between calculation and experimentTrans. Soc. Automot. Engrs, February 1993, paper 930694, SP 959.
31.
BonneauD.GuinesD.FreneJ.ToploskyJ.EHD analysis, including structural inertia effects and a mass-conserving cavitation modelTrans. ASME, J. Tribology, July 1995, 117, 540–547.
32.
ParanjpeR.A study of dynamically loaded engine bearings using a transient thermohydrodynamic analysisTrans. Soc. Automot. Engrs, 1996, 39 (3), 636–644.
33.
BoedoS.BookerJ. F.Surface roughness and structural inertia in a mode-based mass-conserving elasto-hydrodynamic lubrication modelTrans. ASME, J. Tribology, July 1997, 119, 449–455.
34.
OzasaT.YamamotoM.SuzukiS.NozawaY.KonomiT.Elastohydrodynamic lubrication model of connecting rod big end bearings: Comparison of experiments by diesel engine. SAE paper 952549, 1995, pp. 2011–2024.
35.
KnollG.SchonenR.WilhelmK.Full dynamic analysis of crankshaft and engine block with special respect to elastohydrodynamic bearing coupling. ASME Internal Combustion Engine (ICE) Division Meeting, 1997, Vol. 28-3, pp. 1–8.
36.
TanakaM.Recent analyses and designs of thick film bearingsNew Directions in Tribology, 1997, pp. 411–433. (Mechanical Engineering Publications Limited).
37.
MasudaT.UshijimaK.HamaiK.A measurement of oil film pressure distribution in connecting rod bearing with test rigSTLE Tribology Trans., 1992, 35 (1), 71–76. Presented at 46th Annual Meeting, Montreal, 29 April-2 May 1992.
38.
XuH.Elastohydrodynamic lubrication in plain bearings.In Proceedings of Leeds—Lyons Symposium on Tribology, Elsevier Tribology Series 32.
39.
HolmesR.On bearing deformation and temperature distribution in dynamically loaded engine bearings. Proceedings of NATO Adv. Study Inst. onVibration and Wear Damage in High Speed Rotating Machinery, Troia, Setubal, Portugal, 10-22 April 1989, Proc. Publ. 1990, ISBN 0-7923-0533-7.
40.
WestbrookM. H.MunroR.The telemetering of information from a working internal combustion engineTrans. ASME, J. Engng Power, April 1967, 247–254.
41.
ButcherA. E.Developments in the measurement of oil-film thickness in dynamically loaded bearingsProc. Instn Mech. Engrs, Part G: J. Aerospace Engineering, 1968, 182 (3G), 105–108.
42.
du ParquetJ.GodetA.Assessment of lubrication conditions in a big-end bearing by temperature measurements—correlation with high shear viscosity. SAE/SP-78/434, paper 780980, 1978.
43.
IshihamaM.HayashiY.KubozukaT.An analysis of the movement of the crankshaft journals during engine firing. SAE Passenger Car Meeting, Dearborn, Michigan, 8-12 June 1981, SAE paper 810772.
44.
FilowitzM. S.KingW. H.AppeldoornJ. K.Oil film thickness in a bearing of a fired engine. Presented at the International Congress and Exposition, Detroit, 22-26 February 1982, 0148-7191/82/0222-0511, SAE paper 820511.
45.
CraigR. C.KingW. H.JrAppeldoornJ. K.Oil film thickness in a bearing of a fired engine. Part II: The bearing as a capacitor. Presented at the Fuels and Lubricants Meeting, Ontario, 18-21 October 1982, 0148-7191/82/1018-1250, SAE paper 821250.
46.
SommerfeldA.Zur hydrodynamischen Theorie der SchiermittelreibungZ. Math. Physik, 1904, 50, 97–155.
47.
IidaY.TanakaK.FuseS.Contact-point method for measuring sliding face temperature and its applications. SAE paper 830311, 1983, pp. 65–72.
48.
YamaguchiY.TakesueM.MaruyaT.NagashimaT.Experimental analysis of connecting rod bearing seizures in four-cycle gasoline enginesTrans. Soc. Automot. Engrs, September 1989, paper 892114, SP-799, pp. 121–128.
49.
SasakiS.KatoH.YamaguchiK.AndoM.IsobeM.Effects of geometric defects in journals on bearing performance. SAE Technology Paper Series, 1987, Part 2, PP8, 0096-736X/88/9602-0789, paper 870581, pp. 789–796.
50.
ChoiJ.-K.LeeJ.-H.HanD. C.Oil film thickness in engine main bearings: Comparison between calculation and experiment by total capacitance methodSoc. Automot. Engrs Special Publs, 1990, 936, 147–160.
51.
HashizumeK.KumadaY.A study of oil flow and temperature in journal bearings. Engine Tribology SAE International Congress, Detroit, 24-28 February 1992, SP-919, ISBN 1-56091-236-7.
52.
JonesG.The influence of geometry and grooving on the measured temperatures of engine crankshaft bearings. SAE International Congress and Exhibition, Detroit, Michigan, 26-29 February 1996, SAE paper 960989.
53.
GoodwinM. J.GrovesC.NikolajsenJ. L.OgrodnikP. J.Experimental measurement of big-end bearing journal orbitsProc. Instn Mech. Engrs, Part J: J. Engineering Tribology, 2000, 214, 219–228.
