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Meccanica

Erschienen in:

03.01.2021

Modeling on contact fatigue under starved lubrication condition

verfasst von: A. Kolivand, S. Li, Q. Zhang

Erschienen in: Meccanica | Ausgabe 1/2021

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Abstract

This study develops a model for the description of surface breaking crack initiation, under starved lubrication condition. Varying from fully flooded to severely starved lubrication condition, impacts of important factors, including surface roughness, contact pressure, and lubricant viscosity, on fatigue life are examined. Surprisingly and interestingly, it is found a lower lubricant viscosity elongates fatigue life when severe starvation occurs, which is opposite to the EHL rule under fully flooded lubrication condition, stating higher viscosity leads to thicker lubrication film and improved fatigue life. However, it is in line with the experimental observation (Cann in Tribol Trans 42(4):867–873, 1999), where film thickness was shown to increase when moving from high viscosity base oil to a lower one under starvation condition.

Vorheriger Artikel Model-based mechanical design of a passive lower-limb exoskeleton for assisting workers in shotcrete projection

Nächster Artikel Amplitude and rotational speed control of variable length pendulum by periodic input

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Cann PM (1999) Starved grease lubrication of rolling contacts. Tribol Trans 42(4):867–873CrossRef

Fujita K, Yoshida A (1981) Effects of hardness difference on the surface durability and surface failure of steel rollers. Wear 67:187–200CrossRef

Fujita K, Yoshida A (1984) Effects of molybdenum disulphide and an organic molybdenum compound in gear oil on rolling contact fatigue. Wear 95:271–286CrossRef

Ioannides E, Harris TA (1985) A new fatigue model for rolling bearings. ASME J Tribol 107(3):367–377CrossRef

Li S, Kahraman A (2011) A fatigue model for contacts under mixed elastohydrodynamic lubrication condition. Int J Fatigue 33:427–436CrossRef

Li S, Kahraman A, Klein M (2012) A fatigue model for spur gear contacts operating under mixed elastohydrodynamic lubrication conditions. ASME J Mech Des 134:041007CrossRef

Hoffmann G, Hanejko FG, Slattery RH (2006) Crack initiation and propagation in RCF—a new approach to understanding pitting failure of highly loaded gears. SAE World Congress, DetroitCrossRef

Li S, Kahraman A (2013) Micro-pitting fatigue lives of lubricated point contacts: experiments and model validation. Int J Fatigue 48:9–18CrossRef

Li S, Kahraman A (2009) A mixed EHL model with asymmetric integrated control volume discretization. Tribol Int 42(8):1163–1172CrossRef

10.

Li S, Kahraman A (2010) A transient mixed elastohydrodynamic lubrication model for spur gear pairs. ASME J Tribol 132:011501CrossRef

11.

Cusano C, Wedeven LD (1982) The effects of artificially-produced defects on the film thickness distribution in sliding EHD point contacts. J Lubr Technol 104:365–375CrossRef

12.

Li S, Parmar U (2018) The effects of microdimple texture on the friction and thermal behavior of a point contact. ASME J Tribol 140:041503CrossRef

13.

Snidle RW, Evans HP (2010) Mixed lubrication and prediction of surface fatigue in gear tooth contacts. In: Proceedings of International Conference on Gears, Technical University of Munich, October 2010, VDI-Berichte, Dusseldorf, Germany, VDI-Berichte No. 2108

14.

Zhu D, Ren N, Wang QJ (2009) Pitting life prediction based on a 3D line contact mixed EHL analysis and subsurface von Mises stress calculation. J Tribol 131(4):041501CrossRef

15.

Epstein D, Keer LM, Wang QJ, Cheng HS, Zhu D (2003) Effect of surface topography on contact fatigue in mixed lubrication. Tribol Trans 46(4):506–513CrossRef

16.

Li S, Anisetti A (2017) A tribo-dynamic contact fatigue model for spur gear pairs. Int J Fatigue 98:81–91CrossRef

17.

Meheux M, Minfray C, Ville F, Mogne TL, Lubrecht AA, Martin JM, Lieurade HP, Thoquenne G (2010) Effect of lubricant additives in rolling contact fatigue. Proc Inst Mech Eng Part J J Eng Tribol 224(9):947–955CrossRef

18.

Yoshioka T, Shimizu S, Shimoda H (2009) A new rolling contact damage of deep groove ball bearing under grease lubrication. Tribol Trans 42(4):867–873

19.

Riggs MR, Murthy NK, Berkebile SP (2017) Scuffing resistance and starved lubrication behavior in helicopter gear contacts: dependence on material, surface finish, and novel lubricants. Tribol Trans 60(5):932–941CrossRef

20.

Enthoven J, Spikes HA (1996) Infrared and visual study of the mechanisms of scuffing. Tribol Trans 39(2):441–447CrossRef

21.

Ali F, Krupka I, Hartl M (2013) Analytical and experimental investigation on friction of non-conformal point contacts under starved lubrication. Meccanica 48(3):545–553MATHCrossRef

22.

Lewis SR, Lewis R, Evans G, Buckley-Johnstone LE (2014) Assessment of railway curve lubricant performance using a twin-disc tester. Wear 314:205–212CrossRef

23.

Querlioz E, Ville F, Lenon H, Lubrecht T (2007) Experimental investigations on the contact fatigue life under starved conditions. Tribol Int 40:1619–1626CrossRef

24.

Labiau A, Ville F, Sainsot P, Querlioz E, Lubrecht T (2008) Effect of sinusoidal surface roughness under starved conditions on rolling contact fatigue. Proc Inst Mech Eng Part J J Eng Tribol 222:193–200CrossRef

25.

Hamrock BJ, Dowson D (1977) Isothermal elastohydrodynamic lubrication of point contacts, part IV, Starvation results. J Lubr Tech 99(1):15–23CrossRef

26.

Chevalier F, Lubrecht AA, Cann PME, Colin F, Dalmaz G (1998) Film thickness in starved EHL point contacts. ASME J Tribol 120(1):126–133CrossRef

27.

Yang P, Wang J, Kaneta M (2006) Thermal and non-Newtonian numerical analyses for starved EHL line contacts. ASME J Tribol 128(2):282–290CrossRef

28.

Pu W, Zhu D, Wang J (2018) A starved mixed elastohydrodynamic lubrication model for the prediction of lubrication performance, friction and flash temperature with arbitrary entrainment angle. ASME J Tribol 140(3):031501CrossRef

29.

Li S, Masse D (2019) On the flash temperature under starved lubrication condition of a line contact. Tribol Int 136:173–181CrossRef

30.

Elrod HG (1981) A cavitation algorithm. ASME J Lubr Technol 103(3):350–354CrossRef

31.

Li S, Anisetti A (2016) On the flash temperature of gear contact under the tribo-dynamic condition. Tribol Int 97:6–13CrossRef

32.

Li S, Kahraman A, Anderson NE, Wedeven LD (2013) A model to predict scuffing failures of a ball-on-disk contact. Tribol Int 60:233–245CrossRef

33.

Li S, Kahraman A (2021) A scuffing model for spur gear contacts. Mech Mach Theory 156:104161CrossRef

34.

Schmidt K, Bair S, Trusler JPM The viscosity of squalane revisited—an updated reference model. In: 16th meeting of the international association for transport properties, July 15th, 2016, Imperial College London, UK

35.

Li S, Kolivand A (2020) On the dynamics of a lubricated roller contact. Mech Mach Theory 153:103959CrossRef

36.

Johnson KL (1985) Contact mechanics. Cambridge University Press, CambridgeMATHCrossRef

37.

Li S (2014) A boundary element model for near surface contact stresses of rough surfaces. Comput Mech 54(3):833–846MathSciNetMATHCrossRef

38.

Matake T (1977) An explanation of fatigue limit under combined stress. Bull JSME 20:257–263CrossRef

39.

McDiarmid DL (1994) A shear stress based critical-plane criterion of multiaxial fatigue failure for design and life prediction. Fatigue Fract Eng Mater Struct 17:1475–1484CrossRef

40.

Susmel L, Lazzarin P (2003) A stress-based method to predict lifetime under multiaxial fatigue loadings. Fatigue Fract Eng Mater Struct 26:1171–1187CrossRef

41.

Liu Y, Mahadevan S (2007) A unified multiaxial fatigue damage model for isotropic and anisotropic materials. Int J Fatigue 29:347–359MATHCrossRef

42.

Zaretsky EV (1987) Fatigue criterion to system design, life and reliability. J Propul Power 3:76–83CrossRef

43.

Svoboda P, Kostal D, Krupka I, Hartl M (2013) Experimental study of starved EHL contacts based on thickness of oil layer in the contact inlet. Tribol Int 67:140–145CrossRef

Titel: Modeling on contact fatigue under starved lubrication condition
verfasst von: A. Kolivand
S. Li
Q. Zhang
Publikationsdatum: 03.01.2021
Verlag: Springer Netherlands
Erschienen in: Meccanica / Ausgabe 1/2021
Print ISSN: 0025-6455
Elektronische ISSN: 1572-9648
DOI: https://doi.org/10.1007/s11012-020-01284-1

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