, B1nd1ng Energy (eV) Binding Ene rgy (eV) 2 10000 2000 1000 0 L_1 oõ o ----sõõ--?õo~--4õo~--~õ

. Dinding,

, Bindtng Energy (eV) BIBLIOGRAPHY

H. Alfred and . Rzeppa, Universal Joint, 1928.

M. Orain, Théorie générale et expérimentation des joints homocinétiques, 1977.

, Chiffres clés du transport, 2018.

J. Automobile and . Association, REPORT ON ENVIRONMENTAL PROTECTION EFFORTS Promoting Sustainability in Road Transport in Japan, p.35, 2011.

, Where the Energy Goes: Gasoline Vehicles, 2018.

. Groupe-psa, F. Transport, and B. Veritas, Real world fuel economy measurements, 2017.

T. Yamamoto, T. Matsuda, and N. Okano, Efficiency of Constant Velocity Universal Joints, SAE Technical Paper, vol.930906, p.1, 1993.

P. Dinwiddy, GKN Driveline's Breakthrough countertrack TM Technology Saves Fuel | Business Wire, 2009.

, s-Breakthrough-countertrack TM -Technology-Saves-Fuel, p.18, 2018.

G. Pierre, Joints homocinétiques, 1996.

S. Serveto, J. Mariot, and P. Diaby, Joint tripode coulissant de transmission automobile, p.6, 2007.

K. L. Johnson, Normal contact of elastic solids -Hertz theory, Contact Mechanics, pp.84-106, 1985.

G. Inglebert, T. Da-silva, I. Botelho, . Lemaire, and . Caron, Théorie du contact de Hertz -Contacts ponctuels ou linéiques, vol.1, pp.270-271

C. Lee and A. A. Polycarpou, Assessment of Elliptical Conformal Hertz Analysis Applied to Constant Velocity Joints, J. Tribol, vol.132, p.3, 2010.

B. J. Hamrock and D. Brewe, Simplified Solution for Stresses and Deformations, J. Lubr. Technol, vol.105, issue.2, pp.171-177, 1983.

R. Stribeck, Die wesentlichen Eigenschaften der Gleit-und Rollenlager, 1903.

B. J. Hamrock, Fundamentals of Fluid Film Lubrication, NASA Ref. Publ, vol.1255, p.676, 1991.

T. E. Tallian, On Competing Failure Modes in Rolling Contact, A S L E Trans, vol.10, issue.4, pp.418-439, 1967.

T. G. Mezger, The rheology handbook : for users of rotational and oscillatory rheometers, 2011.

F. Cyriac, P. M. Lugt, and R. Bosman, On a New Method to Determine the Yield Stress in Lubricating Grease, Tribol. Trans, vol.58, issue.6, pp.1021-1030, 2015.

I. Couronne-darrak, Etude Experimentale du comportement de griasses lubrifiantes pour roulements à billes, 2000.

N. Brunetière, Introduction à la Tribologie, p.118, 2016.

. Astm-international, Standard Test Methods for Cone Penetration of Lubricating Grease, 2017.

R. N. Bolster and R. C. Little, Dependence of Lithium Grease Dropping Points on Solubility Parameter of Oil Component, Ind. Eng. Chem. Prod. Res. Dev, vol.5, issue.2, pp.198-202, 1966.

S. Beret, Impact of base oil changes on grease performance, pp.192-198, 1993.

W. Dresel and R. Heckler, Lubricants, 8. Lubricating Greases, Ullmann's Encycl. Ind. Chem, vol.21, pp.547-571, 2012.

L. Liu and H. W. Sun, Impact of polyurea structure on grease properties, Lubr. Sci, vol.22, pp.405-413, 2010.

R. W. Bruce, CRC Handbook of Lubrication: Theory and Practice of Tribology, Theory and Design, vol.II, 2010.

G. Dr and . Fish, The Effect of Friction Modifier additives on CVJ Grease Performance, NLGI Spokesm, vol.66, pp.22-31, 2002.

P. C. Mitchell, OIL-SOLUBLE MO-S COMPOUNDS AS LUBRICANT ADDITIVES, Wear, vol.100, pp.281-300, 1984.

M. Kato and T. Sato, The Development of Low Friction and Anti-Fretting Corrosion Greases for CVJ and Wheel Bearing Applications, SAE Technical Paper, 1987.

. Pcs-instruments, EHD2 Ultra Thin Film Measurement System, 2019.

V. Ripard, F. Ville, J. Cavoret, M. Ruzek, P. Charles et al., Experimental Investigation of Sliding on Tripod Constant Velocity Joints, 2019.

C. Lee and A. A. Polycarpou, Experimental Investigation of Tripod Constant Velocity (CV) Joint Friction, 2006.

E. Francis, Construction mécanique : transmission de puissance, 2002.

G. Knothe, Evaluation of ball and disc wear scar data in the HFRR lubricity test, Lubr. Sci, pp.35-45, 2008.

P. Rabaso, Nanoparticle-doped lubricants : potential of Inorganic Fullerene-like (IF-) molybdenum disulfide for automotive applications, 2014.
URL : https://hal.archives-ouvertes.fr/tel-01149050

, Fiche signalétique Accura ® ClearVue TM, 3D Systems, 2016.

C. H. Lee and A. A. Polycarpou, A phenomenological friction model of tripod constant velocity (CV) joints, Tribol. Int, vol.43, pp.844-858, 2010.

. Afnor, Produits pétroliers et graisses lubrifiantes -Séparation d'huile au stockage des graisses lubrifiantes -Méthode sous pression -Conditions statiques, p.12, 2011.

S. Hurley, P. M. Cann, and ;. Dowson, IR Spectroscopic Analysis of Grease Lubricant Films in Rolling Contacts, Lubrication at the Frontier, pp.589-600, 1999.

C. Grossiord, Mécanismes tribochimiques de réduction du frottement limite : Cas des additifs au molybdène, 1998.

C. Balan and J. M. Franco, Influence of the geometry on the transient and steady flow of lubricating greases, Tribol. Trans, vol.44, issue.1, pp.53-58, 2001.

L. Salomonsson, G. Stang, and B. Zhmud, Oil/thickener interactions and rheology of lubricating greases, Tribol. Trans, vol.50, issue.3, pp.302-309, 2007.

D. Gonçalves, B. Graça, A. V. Campos, J. Seabra, J. Leckner et al., Formulation, rheology and thermal ageing of polymer greases -Part I: Influence of the thickener content, Tribol. Int, vol.87, pp.160-170, 2015.

I. Couronne, G. Blettner, and P. Vergne, Rheological Behavior of Greases: Part I-Effects of Composition and Structure, Tribol. Trans, vol.43, issue.4, pp.619-626, 2008.

H. Cen and P. M. Lugt, Film thickness in a grease lubricated ball bearing, Tribol. Int, vol.134, pp.26-35, 2019.

P. M. Lugt, S. Velickov, and J. H. Tripp, Tribology Transactions On the Chaotic Behavior of Grease Lubrication in Rolling Bearings On the Chaotic Behavior of Grease Lubrication in Rolling Bearings, Tribol. Trans, vol.52, pp.581-590, 2009.

P. Svoboda, D. Kostal, J. Kunak, and I. Krupka, Study of Grease Behaviour in a Starved Lubricated Contact, MM Sci. J, pp.465-469, 2014.

P. M. Cann, Starvation and Reflow in a Grease-Lubricated Elastohydrodynamic Contact, Tribol. Trans, vol.39, issue.3, pp.698-704, 1996.

P. M. Cann, Thin-film grease lubrication, Proc. Inst. Mech. Eng. Part J J. Eng. Tribol, vol.213, issue.5, pp.405-416, 1999.

L. Huang, D. Guo, and W. Shizhu, Film thickness decay and replenishment in point contact lubricated with different greases: A study into oil bleeding and the evolution of lubricant reservoir, Tribol. Int, vol.93, pp.620-627, 2016.

J. Nevez, Etude cinématique et dynamique d'une transmission automobile à joints tripodes, 2000.

J. Giesbers, CONTACT MECHANICS IN MSC ADAMS, 2012.

Y. Yamamoto and S. Gondo, Friction and wear characteristics of Molybdenum Dithiocarbamate and Molybdenum Dithiophosphate, Tribol. Trans, vol.32, issue.2, pp.251-257, 1989.

M. De-feo, C. Minfray, M. Bouchet, B. Thiebaut, and J. Martin, MoDTC friction modifier additive degradation. Correlation between chemical changes and tribological performances, RSC Adv, vol.5, p.24, 2015.

&. Wikipédia and . Zndtp,