L. Reti, Leonardo on Bearings and Gears, Sci. Am, vol.224, issue.2, pp.101-110, 1971.

P. Vaughan, Iron ball bearings for carriage wheel-axles, Brevet, 1794.

, SKF rolling bearing, 2013.

A. Neurouth, Etude de la performance énergétique d'une transmission, 2016.

T. A. Harris, Rolling Bearing Analysis, Fourth Edi, 2001.

D. Nelias, P. Sainsot, and L. Flamand, Power loss of Gearbox Ball Bearing Under Axial and Radial Loads, Tribol. Trans, vol.37, issue.1, pp.83-90

P. K. Gupta, Advanced Dynamics of rolling Elements, 1984.

H. Hertz, Uber die berührung fester elasticscher körper, J. Reine und angew. Math, vol.92, pp.156-171, 1881.

O. Reynolds, On the theory if lubrication and its application tomr. Beauchamp tower's experiments, including an experimental determination of the viscosity of olive oil, Philosiphical Trans. oyal Soc. London, vol.177, pp.157-234, 1986.

D. Dowson and G. R. Higginson, Elastohydrodynamic lubrication of point contacts, part IV: starvation results, Transations ASME, J. Lubr. Technol, vol.99, pp.15-23, 1977.

W. Tu, Y. Shao, and C. K. Mechefske, An analytical model to investigate skidding in rolling element bearings during acceleration, J. Mech. Sci. Technol, vol.26, issue.8, pp.2451-2458, 2012.

H. L. Heathcote, The ball bearing, Inst. Mech. Eng, Proc. Automob. Div, vol.15, p.569, 1921.

B. A. Jones, Ball motion and Sliding friction in ball bearings, ASME J. Basic Eng, vol.81, pp.1-12, 1959.

A. Lubrecht, Numerical solution of the EHL line and point contact problem using multigrid techniques, 1987.

A. Lubrecht, An introduction to Elastohydrodynamic lubrication, 2004.

D. D. Hamrock and B. J. , Elastohydrodynamic lubrication of point contacts, part IV: starvation results, Journal of lubrication technology, vol.99, pp.15-23, 1977.

T. A. Harris and R. M. Barnsby, Tribological Performance Prediction of Aircraft Gas Turbine Mainshaft Ball Bearings, Tribol. Trans, vol.41, issue.1, pp.60-68, 1998.

R. Stribeck, Die wesentlichenEigenschaften der Gleit-und Rollenlager: Untersuchung einer Tandem-Verbundmaschine von 100 PS, VDI Zeitshrift, vol.182, pp.262-280, 1902.

D. Yasser, Analyse des pertes de puissance dans les transmissions par engrenages à grande vitesse. Applications aux réducteurs industrielset aux machines textiles, Sciences Appliquées de Lyon, 2005.

B. Hamrock and J. W. Anderson, Rolling element bearing, NASA Ref. Publ. 1105, vol.1983, p.57

K. Gupta, Advanced dynamics of rolling elements, p.295, 1984.

Y. Marchesse, C. Changenet, F. Ville, and P. Velex, Numerical Investigations on Drag Coefficient of Balls in Rolling Element bearings, Tribol. Trans, vol.57, pp.778-785, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00821867

F. Pouly, C. Changenet, F. Ville, P. Velex, and B. Damiens, Power Loss Predictions in HighSpeed Rolling Element Bearings Using Thermal Network, Tribol. Trans, pp.957-968, 2010.

W. Wu, C. Hu, J. Hu, and S. Yuan, Jet cooling for rolling bearings : Flow visualization and temperature distribution, Appl. Therm. Eng, vol.105, pp.217-224, 2016.

J. Liebrecht, X. Si, B. Sauer, and H. Schwarze, Investigation of Drag and Churning Losses on Tapered Roller Bearings, J. Mech. Eng, vol.61, issue.6, pp.399-408, 2015.

J. L. Tevaarwerk, The influence of fluid rheology on the performance of traction drives, Trans. ASME, vol, vol.101, pp.266-274, 1979.

J. , Lubrifiants -Constitution, 1997.

J. , Lubrifiants-Additifs à action chimique, 2001.

A. Palmgren, Les roulements : description, théorie, applications" 2e Edition SKF, 1967.

I. Pinel, H. R. Signer, S. Technical, and V. Zaretsky, Design and Operating Characteristics of High-Speed , Bearings

D. Flouros, P. Gloeckner, . Hirschmann, M. Martin, . Cottier et al., Experimental and numerical Investigation of the outer ring cooling concept in a Hybrid and in all-steel ball bearing used in aero-engines by the introduction of a helical duct, Aerospace, vol.5, issue.1, 2018.

J. R. Brown and N. H. Forster, Carbon-Phenolic cages for high-speed bearings Part IIIDevelopment of Numerical Models for Heat Generation and Temperature Prediction in Lightly Lubricated Bearings, NASA Tech. Pap, 2003.

L. Q. Wang, G. C. Chen, L. Gu, and D. Z. Zheng, Operating temperature in high-speed ball bearing, J. Mech. Eng. Sci, vol.221, pp.353-359, 2006.

S. Ai, W. Wang, Y. Wang, and Z. Zhao, Temperature rise of double-row tapered roller bearings analyzed with the thermal network method, Tribol. Int, vol.87, pp.11-22, 2015.

D. Zheng and W. Chen, Thermal performances on angular contact ball bearing of highspeed spindle considering structural constraints under oil-air lubrication, Tribiology Int, vol.109, pp.593-601, 2017.

H. H. Coe, Comparison of predicted and measured temperatures of UH-60A Helicopter Transmission, NASA Tech. Pap, 1989.

D. Zheng, W. Chen, and M. Li, An optimized thermal network model to estimate thermal performances on a pair of angular contact ball bearings under oil-air lubrication, ScienceDirect, vol.131, issue.25, pp.328-339

T. Sibilli, Transient Thermal Modeling of Ball Bearing Using Finite Element Method, ASME J. Eng. gas turbines power, vol.140, issue.3, pp.1-8, 2018.

J. Jedrzejewski, W. Kwasny, and Z. Kowal, Operational Behaviour of High spindle unite, MM Sci. J, pp.40-44

Z. Kowal, W. Kwa, and W. Modrzycki, High-speed precise machine tools spindle units improving, Sci. direct, vol.163, pp.615-621, 2005.

A. Zahedi and M. R. Movahhedy, Thermo-mechanical modeling of high speed spindles, Sci. Iran, vol.19, issue.2, pp.282-293, 2012.

J. K. Choi and D. G. Lee, Thermal characteristics of the spindle bearing system with a gear located on the bearing span, Sci. Direct, vol.38, pp.1017-1030, 1998.

C. Lin, J. F. Tu, and J. Kamman, An integrated thermo-mechanical-dynamic model to characterize motorized machine tool spindles during very high speed rotation, Sci. Direct, vol.43, pp.1035-1050, 2003.

K. Ramesh, S. H. Yeo, Z. W. Zhong, and A. Yui, Ultra-high-speed thermal behavior of a rolling element upon using oil -air mist lubrication, J. Mater. Process. Technol, vol.127, pp.191-198, 2002.

F. Pouly, F. Ville, C. Changenet, P. Velex, and B. Damiens, Investigations on the power losses and thermal behaviour of rolling element bearings, Pro. IMechE, Part J J. Eng. Tribol, pp.925-933, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00417202

C. Fossier, Investigations on efficiency of truck axles and their hypoid gear set: a thermomechanical model, 2018.

C. Changenet, X. Ovieddo-marlot, and P. Velex, Power Loss Predictions in Geared Networks-Applications to a Six-Speed Manual Gearbox, Trans. ASME, vol.128, pp.618-625, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00378106

C. Valle, Thermal modelling of an FZG test gearbox, 2014.

G. Sun, A. Palazzolo, A. Provenza, C. Lawrence, and K. Carney, Long duration blade loss simulations including thermal growths for dual-rotor gas turbine engine, J. Sound Vib, vol.316, pp.147-163, 2008.

I. Andreason and S. Fernlund, Bearing temperature calculated by computer, J. ball Bear, vol.160, 1970.

R. Staph and H. E. Burton, Thermally activated seizure of angular contact bearings, ASLE Trans, vol.10, pp.408-417, 1967.

C. Changenet, Modélisation du comportement thermique des transmissions par engrenages, 2006.

J. P. Holman, Heat transfer, 1990.

E. Buckingham, On physically similar systems. Illustrations of the use of dimensional equations, Phys. Rev, vol.4, issue.4, pp.345-376, 1914.

H. Block, les températures de surface dans des conditions de graissage sous extrême pression, Congrès mondial du pétrole, pp.471-486, 1937.

H. Block, the flash temperature concept, Journal of Wear, p, vol.6, pp.483-193, 1903.

Y. S. Muzychka and M. M. Yovanovich, Thermal Resistance Models for Non-Circular Moving Heat Sources on a Half Space, Trans. ASME, vol.123, 2001.

A. Neurouth, C. Changenet, F. Ville, and M. Octrue, Influence of Rolling Element Bearing Modeling on the Predicted Thermal Behavior of the FZG Test Rig, Tribol. Trans, pp.1-9, 2016.

J. P. Holman, Heat transfer, 6.3 Flow accros cylindersand spheres Mc Graw-Hill book company, 1990.

J. Padet, Convection thermique et massique -nombre de Nusselt: partie 1. Techniques de l'ingénieur, 2005.

, Outils de calcul en ligne 'SKF bearing calculator

T. Momono and B. Noda, Sound and Vibration in Rolling Bearings, Motion Control, issue.6, pp.29-37, 1999.

, Norme ISO 76 Rolling bearings -Static load ratings, 2000.

C. Noiray, Amélioration de la modélisation thermique d 'un banc FZG, mémoire master de recherche Institut National des Sciences Appliquées, 2015.

D. E. Brewe and B. J. Hamrock, Simplified solution for point contact deformation between two elastic solid, NASA Tech. Pap, 1976.

Y. Diab, F. Ville, C. Changenet, and P. Velex, Windage Losses in High Speed Gears: Preliminary Experimental and Theoretical Results, ASME J. Mech. Des, vol.126, pp.903-908, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00507868

B. L. Vlcek and E. Zaretsky, Rolling-Element Fatigue Testing and Data Analysis -A Tutorial, NASA Tech. Pap, 2011.

Y. Wang, D. Liu, G. Xu, and K. Jiang, An image dimensionality reduction method for rolling bearing fault diagnosis based on singular value decomposition, I MechE J. Mech. Eng. Sci, vol.0, issue.0, pp.1-16, 2015.

P. Goldman, K. P. Dayton, and B. G. Van-slyke, Rolling Element Bearing Defect Detection and Diagnostics Using Displacement Transducers, ASME J. Eng. Gas Turbines Power, vol.124, 2002.

J. Takabi and M. M. Khonsari, Experimental testing and thermal analysis of ball bearings, Tribol. Int, vol.60, pp.93-103, 2013.

J. Takabi and M. M. Khonsari, On the thermally-induced failure of rolling element bearings, Tribol. Int, vol.94, pp.661-674, 2016.

B. Wang, C. Gao, Z. Wu, and H. Liu, Prediction of the friction torque in grease lubricated angular contact ball bearings using grey system theory, J. Mech. Sci. Technol, vol.30, issue.5, pp.2195-2201, 2016.

P. Viorel, D. Ioan, and S. Cristel, Friction Torque Measurement in Partial Hybrid S-C Angular Contact Ball Bearings, Appl. Mech. Mater, vol.658, pp.339-344, 2014.

T. Cousseau, B. Graça, A. Campos, and J. Seabra, Experimental measuring procedure for the friction torque in rolling bearings, Lubr. Sci, vol.22, issue.4, pp.133-147

C. Fernandes, R. Martins, and J. Seabra, Friction torque of thrust ball bearings lubricated with wind turbine gear oils, Tribiology Int, vol.58, pp.47-54, 2013.

C. Fernandes, P. Amaro, R. Martin, and J. Seabra, Torque loss in cylindrical roller thrust bearings lubricated with wind turbine gear oils at constant temperature, Tribiology Int, vol.67, issue.0, pp.72-80, 2013.

C. Brecher, M. Fey, and A. Hassis, High-Speed Rolling Bearing Test Rigs with Contactless Signal Transmission for Measuring the Inner Ring Temperature, European Telemetry and Test Conference, pp.116-121, 2014.

T. Kiekbusch, Experimental and Simulative Studies of Friction Torque in Roller Bearings with Minimum Amount of Lubrication, J. Lubr. Technol, vol.92, issue.1, 1970.

F. T. Schuller, S. I. Pinel, and H. R. Signer, Operating characteristics of a high speed, jet lubricated 35 millimeter bore ball bearing with a single outer land guided cage, NASA Tech. Pap, 1980.

I. Pinel, R. Signer, and V. Zaretsky, Design and Operating Characteristics of Ball Bearings, NASA Tech. Pap, 1998.

E. Zaretsky and E. N. Bamberger, Note operating characteristics of 120-millimeter-bore ball bearings at 3x10 6 DN, Nasa Tech. note, 1974.

E. Zaretsky, E. Bamberger, and H. Signer, Characteristique of 120-millimeter-Bore ball bearings at 3x10 6 DN, NASA Tech. note, 1974.

W. M. Hannon, T. A. Barr, and S. T. Froelich, Rolling-Element Bearing Heat TransferPart III : Experimental Validation, J. Tribol. ASME, vol.137, pp.1-13, 2015.

W. M. Hannon, Rolling-Element Bearing Heat Transfer -Part I : Analytic Model, J. Tribol. ASME, vol.137, pp.1-11, 2015.

W. M. Hannon, Rolling-Element Bearing Heat Transfer -Part II : Housing , Shaft , and Bearing Raceway Partial Differential Equation Solutions, J. Tribol. ASME, vol.137, pp.1-11, 2015.

T. Rube, C. Rossbach, M. Franz, and H. Wedeking, Performance measurements of a full stage centrifugal process gas compressor test rig, 11th European conference on turbomachinery fluid dynamics and thermodynamics, pp.1-12, 2015.

Y. Xu, L. Di, J. Zhou, C. Jin, and Q. Guo, Active magnetic bearings used as exciters for rolling element bearing outer race defect diagnosis Inner race, ISA Trans, vol.61, pp.221-228, 2016.

D. Niel, C. Changenet, F. Ville, and M. Octrue, A new test rig to study rolling element bearing thermomechanical behavior, Proceeding Int. Gear Conf, 2018.

, Norme ISO TR 14179-1 Engrenages -Capacité thermique, 2001.

K. Yan, Investigation on Heat Dissipation Characteristic of Ball Bearing Cage and Inside Cavity at Ultra High Rotation Speed, Tribolgy Int, vol.93, pp.470-481

J. Dominy, The nature of slip in high speed axially loaded ball bearings, I MechE, vol.200, issue.5, 1986.

F. Pouly, Modélisation thermomécanique d'un roulement à billes grande vitesse, Thèse Institut National des Sciences Appliquées, 2010.