.. Origines-et-caractéristiques-du-frottement, 62 Frottement statique et frottement dynamique, p.73

]. K. Ada96, K. Adachi, Y. Kato, and . Sasatani, « The micro-mechanism of friction drive with ultrasonic wave, Wear, vol.194, pp.137-142, 1996.

]. J. Arc53 and . Archard, « The wear of metals under lubricated conditions, Journal of Applied Physic, vol.24, pp.981-988, 1953.

J. Archard, The temperature of rubbing surfaces, Wear, vol.2, issue.6, pp.438-455, 1956.
DOI : 10.1016/0043-1648(59)90159-0

J. Archard and W. Hirst, « The wear of metals under lubricated conditions, Proc. Roy. Soc., A, pp.397-410, 1956.

P. Arquesasa03-]-k, M. K. Asai, and . Kurosawa, « Simulation model of surface acoustic wave motor considering tangential rigidity, Electronics and Communications in Japan, vol.87, issue.7, pp.54-66, 2000.

]. M. Ash89, S. Ashby, J. Lim, and . Brunton, « The effects of sliding conditions on the dry friction of metals, Acta Metallurgica, vol.37, issue.3, pp.767-772, 1989.

]. M. Ash90, S. Ashby, and . Lim, « Wear-mechanism maps, Scripta Metallurgica et Materialia, pp.805-810, 1990.

]. V. Bab04a, V. Babitsky, A. Astashev, and . Kalashnikov, « Autoresonant control of nonlinear mode in ultrasonic transducer for machining applications, Ultrasonics, vol.42, pp.29-35, 2004.

V. Babitsky, A. Mitrofanov, and V. Silberschmidt, Ultrasonically assisted turning of aviation materials: simulations and experimental study, Ultrasonics, vol.42, issue.1-9, pp.81-86, 2004.
DOI : 10.1016/j.ultras.2004.02.001

G. Dawson, C. Winsper, and D. Sansome, Application of high-and lowfrequency oscillations to the plastic deformation of metals : A complete appraisal of the development and potential », Metal Forming, pp.254-261, 1970.

A. Endo and N. Sasaki, Investigation of Frictional Material for Ultrasonic Motor, Proceedings of 7th symposium on ultrsonic electronics, pp.197-199, 1986.
DOI : 10.7567/JJAPS.26S1.197

]. L. Eyr84, M. Eyraud, and . Brissaud, Le transducteur piézoélectrique, théorie fonctionnement -caractérisation, 1984.

]. Fer99, F. Ferrieux, and . Forest, AlimentationsàAlimentationsà découpage -Convertisseursà Convertisseursà résonance, Dunod, Ultrasonic piezomotor with longitudinally oscilating amplitude-transforming resonnator, pp.37-607, 1989.

]. S. Fou97 and . Fouvry, Etude quantitative des dégradations en fretting, Thèse de doctorat, 1997.

K. Z. Gahr, Modelling of two-body abrasive wear, Wear, vol.124, issue.1, pp.87-103, 1988.
DOI : 10.1016/0043-1648(88)90236-0

]. K. Gah03 and . Gahr, « Transition from static to kinetic friction of unlubricated or oil lubricated steel/steel, steel/ceramic and ceramic/ceramic pairs, Wear, vol.255, pp.1-6, 2003.

J. Gao, W. Luedtke, and U. Landman, Friction Control in Thin-Film Lubrication, The Journal of Physical Chemistry B, vol.102, issue.26, pp.5033-5037, 1998.
DOI : 10.1021/jp982150q

]. F. Gir02 and . Giraud, Modélisation causale et commande d'un actionneur piézo´ electriquè a onde progressive, Thèse de doctorat, 2002.

P. Gonnard, L. Eyraud, and M. Guillemot, Materiaux pi??zo??lectriques pour moteurs ultrasonores performances requises et probl??mes technologiques, Matériaux piézoélectriques pour moteurs ultrasonores : performances requises etprobì emes technologiques, pp.1205-1218, 1994.
DOI : 10.1051/jp3:1994196

]. J. Gre67, J. Greenwood, and . Tripp, « The elastic contact of rough spheres, Journal of Applied Mechanics, vol.89, issue.1, pp.153-159, 1967.

]. M. Heu98, C. Heuberger, J. Drummond, and . Israelachvili, « Coupling of normal and transverse motions during frictional sliding, Journal of Physical Chemistry, vol.102, pp.5038-5041, 1998.

D. Hwang and K. Z. Gahr, Transition from static to kinetic friction of unlubricated or oil lubricated steel/steel, steel/ceramic and ceramic/ceramic pairs, Wear, vol.255, issue.1-6, pp.365-375, 2003.
DOI : 10.1016/S0043-1648(03)00063-2

]. O. Izu66, K. Izumi, Y. Oyama, and . Suzuki, « Effects of surimposed ultrasonic vibration on compressive deformation of metals, Transaction of the Japan Institute of Metals, pp.158-166, 1966.

]. T. Jib01, M. Jibiki, H. Shima, M. Akita, and . Tamura, « A basic study of friction noise caused by fretting, pp.1492-1503, 2001.

]. T. Kit98 and . Kitazawa, Friction controlle device tested to CNC turning lathe guideway and slider, Thèse de doctorat, 1998.

]. L. Kog, Kogut et I. Etsion, « An elastic-plastic model for the contact and friction of rough surfaces

]. I. Kri66, L. Kristoffy, G. Lebrun, B. Sebald, D. Guiffard et al., Friction coefficient reduced under 0.05 in dry condition using supersonic impactors attached to slider Master's Thesis of Ecole Centrale de Lyon [Lan66] B. Langenecker, « Effects of ultrasound on deformation characteristics of metals Investigations on ferroelectric pmnpt and pznpt single crystals ability for power resonant actuators, Transactions of the ASME Thèse de doctoratLeh] E. Lehfeldt, « Beeinflussung metallischer reibungsvorga¨nge durch schall im 20 khz-bereich », Diss. RWTH Aachen. [Lin92] M. F. Linker et J. H. Dieterich, « Effects of variable normal stress on rock friction : observations and constitutive equations, pp.72-75, 1966.

A. Markov, Datasheet high power ultrasonics system for industrial apllications », Rapport technique, Etrema Products. [Min49] R. Mindlin, « Compliance ofélastiqueofélastique bodies in contact, Trans. ASME, Series E, n o 16Mit03] A. Mitrofanov, V. Babitsky et V. Silberschmidt, « Finite element simulations of ultrasonically assisted turning », Computational Materials Science, pp.645-653, 1949.

H. Mohrbacher, The tribological performance of advanced hard coatings under fretting conditions, Thèse de doctorat, 1995.

K. Nakamura, ]. B. Annog, C. Nogarede, J. Henaux, and . Rouchon, Nevill et F. Brotzen, « The effect of vibrations on the static yield strenght of low carbon steel, Proceedings of American Sociaty for testing materials Progres andévolutionàandévolutionandévolutionà venir dans les machinesélectriquesmachinesélectriques -les obstaclesàobstaclesà franchir », dans Proceedings de la Conversion Electromécanique Directe (CEMD), pp.481-485, 1957.

]. B. Bibliographie-[-nog94, E. Nogarede, . Piecourtnog05-]-b, and . Nogarede, Electrodynamique appliquée : fondements et principes physiques de l'´ electrotechnique, Dunod [Per95] B. Persson et E. Tosatti, Physics of Sliding Friction, « Experiments and numerical results on non-linear vibrations of an impacting hertzian contact. part 2 : Random excitation », Proceedings of the 1994 International Conference on Electrical MachinesPol83] Z. Polanski, M. Radwanski et E. Waresiak, « Influence of ultrasonic pulsations on friction in metal forming operations », Obrobka Plastyczna Thèse de doctorat, pp.128-133, 1983.

E. Rabinowicz, M. Raous, S. Cescotto, A. Curnier, and A. Millard, Handbook of Manufacturing and Automation Rapport technique, Institut pour la promotion des sciences de l'ingenieur « Experimental response of a preloaded vibro-impacting hertzian contact [Rig03] E. Rigaud et J. Perret-Liaudet, « Experiments and numerical results on non-linear vibrations of an impacting hertzian contact. part 1 : Harmonic excitation, Modélisation mécanique et numérique du contact et du frottementRiz99] N. Rizet, Controle actif de vibrations utilisant des matériaux piézoelectriques Thèse de doctorat, Institut National des Sciences Appliquées de Lyon, pp.1-8, 1965.

J. Rouchon, Approche tribologique du fonctionnement des moteursà moteursà ultrasons a onde progressive, Thèse de doctorat, 1996.

J. Rouchon, S. Crespin, and P. Kapsa, « Etude du couplage vibration/frottement : Application aux piézo-moteurs », dans Actes des Journées Francophones de Tribologie-Corrosion JFTC, pp.241-249, 1998.

]. N. Sas97, T. Sase, M. Kurahashi, H. Fujii, H. Kutomi et al., « Control od friction coefficient between metal surfaces : Effect of stress waves induced by super-sonic impactor, dans Proceedings of the AMPT International Conference, 1997.

]. R. Say96 and . Sayles, « Basic principles of rough surface contact analysis using numerical methods, Tribology International, pp.639-650, 1996.

]. A. Sed63, T. Sedriks, and . Mulhearn, « Mechanics of cutting and rubbing in simulated abrasive processes, Wear, vol.6, pp.457-466, 1963.

]. G. Seg90 and . Seguier, Les Convertisseurs de l'Electronique de Puissance, Technique et Documentation, 1990.

]. V. Sev61, V. Severdenko, and . Klubovich, « Metal strain in an ultrasonic field », Doklady akad, nauk. B.S.S.R, vol.5, pp.15-16, 1961.

]. A. Sho75 and . Shoh, Beeinflussung metallischer reibungsvorga¨nge durch schall im 20 khz-bereich, IEEE Transactions on Sonics and Ultrasonics, vol.22, pp.60-71, 1975.

]. K. Sie01, J. Siegert, and . Ulmer, Superimposing ultrasonic waves on the dies in tube and wire drawing », Transactions of the ASME, Journal of Engineering Materials and Technology, vol.123, pp.517-523, 2001.

]. N. Sod78, T. Soda, and . Sasada, « Mechanisms of lubrication by surrounding gas molecules in adhesive wear, Journal of Lubrication Technology, vol.100, issue.4, 1978.

]. C. Sti00, H. Stiebel, and . Janocha, « New concept of a hybrid amplifier for driving piezoelectric actuators, dans Proceedings of the 1st IFAC Conference on Mechatronic Systems, pp.379-384, 2000.

]. H. Sto02, W. Storck, J. Littmann, M. Wallaschek, and . Mracek, « The effect of friction reduction in presence of ultrasonic vibrations and its relevance to travelling wave ultrasonic motors, Ultrasonics, vol.40, pp.379-383, 2002.

]. H. Sto03, J. Storck, and . Wallaschek, « The effect of tangential elasticity of the contact layer between stator and rotor in travelling wave ultrasonic motors, International Journal of Non-Linear Mechanics, vol.38, pp.143-159, 2003.

. Bibliographie, Szlabowicz, « Alimentation et commande d'un moteur piézoélectriquè a onde progressive avec contrôle du couple de freinage, 2005.

]. L. Van96 and . Vanel, Le contact stator-rotor dans un moteur piézoélectrique : modélisation mécanique etétudeetétude du frottement métal-polymère en vue de l'optimisation du choix de la couche de frottement, 1996.

]. J. Wal98 and . Wallaschek, « Contact mechanics of piezoelectric ultrasonic motors, Smart Materials and Structures, pp.369-381, 1998.

Z. Wang and K. Rajurkar, Dynamic Analysis of the Ultrasonic Machining Process, Journal of Manufacturing Science and Engineering, vol.118, issue.3, pp.87-97, 1995.
DOI : 10.1115/1.2831039

]. S. Wil03, A. William, and . Elizabeth-croft, « The reduction of stick-slip friction in hydraulic actuators, IEEE ASME transactions on mechatronics, vol.8, issue.3, pp.362-372, 2003.

H. Yoshizawa, Y. Chen, and J. Israelachvili, Recent advances in molecular level understanding of adhesion, friction and lubrication, Wear, vol.168, issue.1-2, pp.1-2, 1993.
DOI : 10.1016/0043-1648(93)90212-5

G. Zambelli and L. Vincent, Matériaux et contact : une approche tribologique , Presses polytechniques et universitaires romandes, 1998.