A. , Domaine de fonctionnement des outils coupants. Couple outil-matière, 1997.

P. J. Arrazola, I. Arriola, and M. A. Davies, Analysis of the influence of tool type, coatings, and machinability on the thermal fields in orthogonal machining of AISI 4140 steels, CIRP Annals -Manufacturing Technology, vol.58, issue.1, pp.85-88, 2009.

P. J. Arrazola and T. Ozel, Investigations on the effects of friction modeling in finite element simulation of machining, International Journal of Mechanical Sciences, vol.52, issue.1, pp.31-42, 2010.

J. Artozoul, C. Lescalier, O. Bomont, and D. Dudzinski, Extended infrared thermography applied to orthogonal cutting: Mechanical and thermal aspects, Applied Thermal Engineering, vol.64, issue.1-2, pp.441-452, 2014.

V. P. Astakhov, Tribology in metal cutting, 2006.

J. Bellot, Influence des inclusions de composés du soufre, du sélénium et du tellure sur la déformabilité à chaud et les propriétés mécaniques des aciers, 1972.

J. Bellot, L'usinabilité des aciers de construction et les moyens permettant de l'améliorer. Presented at the Progrès et évolution dans le domaine de l'usinage, de la mise en forme et de l'assemblage des métaux, 1977.

J. Bellot, Usinabilité des métaux, 1983.

G. Bernard, P. V. Riboud, and G. Urbain, Etude de la plasticité d'inclusions d'oxydes, 1980.

G. Bernsmann, M. Bleymehl, R. Ehl, and A. Hassler, The making of free cutting steels with additions of lead, bismuth, tellurium, selenium and tin, vol.121, pp.87-91, 2001.

A. Bierla, Usinage des aciers prétraités à l'huile entière -effets physicochimiques des additifs soufrés (Thèse de doctorat), 2009.

G. Bittès, Contribution à la connaissance des mécanismes fondamentaux liés à l'usinabilité des aciers de construction mécanique, 1993.

A. Bomont-arzur, Lead substitution for automotive parts: from legislation to R&D activities (Document interne No. R&D 236/12), 2012.

A. Bomont-arzur, J. Artozoul, and C. Lescalier, Stress and heat flux distribution in rake faceAnalytical and experimental approaches, Presented at the 8th International Conference on High Speed Machining, 2010.

G. Boothroyd and W. A. Knight, Fundamentals of machining and machine tools, 1989.

F. W. Boulger, H. L. Shaw, and H. E. Johnson, Constant-pressure lathe test for measuring the machinability of free cutting steels, Transaction of the American Society of Mechanical Engineers, vol.71, p.431, 1949.

K. Bouzakis, N. Michailidis, G. Skordaris, E. Bouzakis, D. Biermann et al., Cutting with coated tools: Coating technologies, characterization methods and performance optimization, CIRP Annals -Manufacturing Technology, vol.61, issue.2, pp.703-723, 2012.

,

W. F. Brandsma, Het onderzoek van de beîtelpunt, Metaalbewerking, vol.21, issue.2, p.541, 1936.

G. Brandt and M. Mikus, The formation of protective layers when machining steel with ceramic cutting tools, Wear, vol.118, issue.1, pp.99-112, 1987.

J. Brion, Contribution à l'étude des mécanismes de formation de couches de transfert non métalliques sur un outil en coupe continue d'aciers de décolletage à inclusions contrôlées (Thèse de doctorat), 1993.

D. Brooksbank, Thermal expansion of calcium aluminate inclusions and relation to tessellated stresses, Journal of The Iron and Steel Institute, vol.208, issue.5, pp.495-499, 1970.

D. Brooksbank and K. W. Andrews, Thermal expansion of somme inclusions found in steels and relation to tessellated stresses, Journal of The Iron and Steel Institute, vol.206, issue.6, pp.595-599, 1968.

D. Brooksbank and K. W. Andrews, Tessellated stresses associated with some inclusions in steel, Journal of The Iron and Steel Institute, vol.207, issue.4, pp.474-483, 1969.

D. Brooksbank and K. W. Andrews, Stress fields around inclusions and their relation to mechanical properties, Journal of The Iron and Steel Institute, vol.210, issue.4, pp.246-255, 1972.

M. W. Burke, Image Acquisition -Handbook of machine vision engineering, vol.1, 1996.

H. Chandrasekaran, Material development and its role in advanced machining situations, Journal of Mechanical Working Technology, vol.17, issue.88, pp.90014-90023, 1988.

T. H. Childs, K. Maekawa, T. Obikawa, and Y. Yamane, Metal Machining (Arnold), 2000.

D. Collin, Contribution à l'étude du rôle des inclusions de type sulfure sur le critère énergétique des matériaux, 1983.

R. Cras, Les éléments d'alliage dans l'acier, 1986.

R. Danzl, F. Helmli, and S. Scherer, Focus variation. A new technology for high resolution optical 3D surface metrology, Presented at the The 10th International Conference of the Slovenian Society for Non-Destructive Testing, 2009.

M. A. Davies, T. Ueda, R. M'saoubi, B. Mullany, and A. L. Cooke, On the measurement of temperature in material removal processes, CIRP Annals-Manufacturing Technology, vol.56, issue.2, pp.581-604, 2007.

P. Denis and E. Morin, Organisation scientifique de l'usinage, 1935.

E. D'eramo and M. Robelet, From machinability to line machining: Steels with high mechanical properties for automotive industry, Presented at the 5th International Conference on High Speed Machining, 2006.

J. E. Desaigues, Explorative study on new inclusions for machinability -A review on machinability and Built-Up Layer, 2012.

P. Diersen, Werkstoffeigenschaften und Spanbildung bei der Dreh-und Bohrungsbearbeitung antriebstechnischer Bauteile, 2002.

B. W. Dines, The function of carbon and sulphur in the machining behaviour of steel, 1975.

I. Essel, Machinability enhancement of non-leaded free cutting steels. RWTH, 2006.

C. A. Essig, Vorhersage von Spanbruch bei der Zerspanung mit geometrisch bestimmter Schneide mit Hilfe schädigungsmechanischer Ansätze, 2010.

X. D. Fang and D. Zhang, An investigation of adhering layer formation during tool wear progression in turning of free-cutting stainless steel, Wear, vol.197, issue.1-2, pp.169-178, 1996.

. Flir-systems, The Ultimate Infrared Handbook for R&D Professionals, 2012.

J. Fujiwara, Cutting Mechanism of Sulfurized Free-Machining Steel, Scanning Electron Microscopy, pp.353-366, 2012.

F. Gao, R. K. Leach, J. Petzing, and J. M. Coupland, Surface measurement errors using commercial scanning white light interferometers, Measurement Science and Technology, vol.19, issue.1, 2008.

T. Gladman and F. B. Pickering, Steel and Coal, pp.1178-1187, 1962.

V. Grolleau, Approche de la validation expérimentale des simulations numériques de la coupe avec prise en compte des phénomènes locaux à l'arète de l'outil (Thèse de doctorat), 1996.

D. Guillot, Contribution à l'étude de l'influence inclusionnaire sur l'usinabilité des aciers bas carbone (Thèse de doctorat), 1995.

J. Hamann, F. Le-maître, and D. Guillot, Selective Transfer Built-up Layer Displacement in High-Speed Machining -Consequences on Tool Wear and Cutting Forces, CIRP Annals -Manufacturing Technology, vol.43, issue.1, pp.69-72, 1994.

P. Helistö, A. S. Helle, and J. Pietikäinen, Interface phenomena between oxide layers and cemented carbide tools, Wear, vol.139, issue.2, pp.225-234, 1990.

A. S. Helle, On the interaction between inclusions in steel and the cutting tool during machining, 1995.

K. Iwata and K. Ueada, The Effect of Lead on Crack Behavior of Leaded Free Machining Steel. Fourth North American Metalworking Conf, pp.326-333, 1976.

I. S. Jawahir, The chip control factor in machinability assessments: recent trends, Journal of Mechanical Working Technology, vol.17, pp.213-224, 1988.

P. Juvonen, Effects of non-metallic inclusions on fatigue properties of calcium-treated steels, 2004.

T. Kagnaya, Contribution à l'identification des mécanismes d'usure en usinage d'un WC-6%Co par une approche tribologique et thermique (Thèse de doctorat). Mines ParisTech, 2009.

S. Katayama and M. Hashimura, Effect of Tool Materials on Interface Adhesion between Freemachining Steel and Cutting Tool, Journal of the Japan Society for Precision Engineering, vol.59, issue.12, pp.1991-1996, 1993.

S. Katayama and T. Imai, Effect of Tool Materials on Surface Machined Roughness and Cutting Force of Low-carbon Resulfurized Free-machining Steels, vol.30, pp.331-337, 1990.

,

R. Kiessling, Non-metallic inclusions in steel Part III. London: Iron and Steel Institute, 1968.

R. Kiessling, , 1968.

R. Kiessling, Non-metallic inclusions in steel Part V. London: The Institute of Metals, 1989.

A. Kirsch-racine, A. Bomont-arzur, and M. Confente, Calcium treatment of medium carbon steel grades for machinability enhancement: from the theory to industrial practice, pp.591-597, 2007.

T. Kitagawa, K. Maekawa, T. Shirakashi, and E. Usui, Analytical prediction of flank wear of carbide tools in turning plain carbon steels (part 1) -Characteristic Equation of flank wear, vol.22, pp.263-269, 1988.

F. Klaus, W. König, W. Lückerath, and H. Siebel, Stand und Kentnisse über die Zerspanbarkeit der Stähle, Stahl Und Eisen, vol.85, issue.25, pp.1669-1684, 1965.

. Knowlton, L'usinabilité des aciers spéciaux. Matériaux et Techniques, pp.235-242, 1974.

W. Koch, E. Büchel, and F. Leiber, Einfluss nichtmetallischer Einschlüsse auf die Zerspanbarkeit des Stahles Ck45: II. Ergebnisse der Unterschurungen der nichtmetallischen Einschlüsse, Archiv Für Das Eisenhüttenwesen, vol.41, issue.3, pp.273-275, 1970.

W. König, Der Verschleiss an spanenden Werkzeugen und die Möglichkeiten zu seiner Minderung. Materialprüfung, vol.9, pp.170-174, 1967.

W. König, Horizons in manufacturing technology, 1967.

W. König and N. Diederich, Einfluss nichtmetallischer Einschlüsse auf die Zerspanbarkeit des Stahles Ck45: I. Ergebnisse der Zerspanversuche, Archiv Für Das Eisenhüttenwesen, vol.41, issue.3, pp.267-273, 1970.

A. Larsson and S. Ruppi, Structure and composition of built-up layers on coated tools during turning of Ca-treated steel, Materials Science and Engineering A, vol.313, issue.1-2, pp.964-973, 2001.

E. H. Lee and B. W. Shaffer, The theory of plasticity applied to the problem of machining, Journal of Applied Physics, vol.18, pp.405-413, 1951.

F. Leroy, Usinage et usinabilité, Les techniques de l'Ingénieur, 1984.

F. Leroy, Endommagement des outils de coupe, Les techniques de l'Ingénieur, 1994.

C. E. Leshock and Y. C. Shin, Investigation on Cutting Temperature in Turning by a Tool-Work Thermocouple Technique, Journal of Manufacturing Science and Engineering, vol.119, issue.4A, p.502, 1997.

S. C. Lim and M. F. Ashby, Overview n°55, Wear mechanism maps, Acta Metall, vol.35, issue.1, pp.1-24, 1987.

G. List, Etude des mécanismes d'endommagement des outils carbure WC-Co par la caractérisation de l'interface outil-copeau. Application à l'usinage à sec de l'alliage d'aluminium aéronautique AA2024 T351 (Thèse de doctorat), 2004.

T. N. Loladze, Of the theory of diffusion wear, CIRP Annals, pp.71-76, 1981.

P. Mathew and P. L. Oxley, Predicting the Cutting Conditions at which Built-Up Edge Disappears when Machining Plain Carbon Steels, CIRP Annals -Manufacturing Technology, vol.29, issue.1, pp.61286-61290, 1980.

P. Mathon, Essai de coupe accéléré, Mécanique Matériaux Electricité, issue.322, 1976.

A. Melander and A. Gustavsson, An FEM study of driving forces of short cracks at inclusions in hard steels, International Journal of Fatigue, vol.18, issue.6, pp.69-71, 1996.

E. Merchant, Mechanics of the Metal Cutting Process. I Orthogonal Cutting and a Type 2 Chip, Journal of Applied Physics, vol.16, pp.267-275, 1945.

G. F. Messner, Modeling Metal Cutting Processes Under Consideration of Elastic Material Properties, 2006.

B. Mills, C. S. Hao, and H. S. Qi, Formation of an adherent layer on a cutting tool studied by micro-machining and finite element analysis, Wear, vol.208, issue.1-2, pp.61-66, 1997.

, , pp.7377-7379

A. Moufki, A. Devillez, D. Dudzinski, and A. Molinari, Thermomechanical modelling of oblique cutting and experimental validation, International Journal of Machine Tools and Manufacture, vol.44, issue.9, pp.971-989, 2004.

R. M'saoubi, Application à la coupe orthogonale des aciers austénitiques (Thèse de doctorat), Ecole Nationale Supérieure d'Arts et Métiers, 1998.

R. M'saoubi and H. Chandrasekaran, Investigation of the effects of tool micro-geometry and coating on tool temperature during orthogonal turning of quenched and tempered steel, International Journal of Machine Tools and Manufacture, vol.44, issue.2-3, pp.213-224, 2004.

R. M'saoubi and H. Chandrasekaran, Innovative methods for the investigation of tool-chip adhesion and layer formation during machining, CIRP Annals-Manufacturing Technology, vol.54, issue.1, pp.59-62, 2005.

J. Naylor, T. Llevvellyn, and M. Keane, Control of machinability in medium-carbon steels, Metals Technology, pp.254-271, 1976.

A. Nordgren and A. Melander, Tool wear, layer formation and inclusion behavior during turning of Ca-treated quenched and tempered steel SS2541 using TiC-Al2O3-TiN coated cemented carbide tools (No. IM-2228), 1987.

A. Nordgren and A. Melander, Tool wear and inclusion behaviour during turning of a calciumtreated quenched and tempered steel using coated cemented carbide tools, Wear, vol.139, issue.2, pp.209-223, 1990.

H. Opitz, M. Gappisch, W. König, R. Pape, and A. Wicher, Einfluss oxydischer Einschlüsse auf die Bearbeitbarkeit von Stahl Ck 45 mit Hartmetalldrehwerkzeugen, Archiv Für Das Eisenhüttenwesen, vol.33, issue.12, pp.841-851, 1962.

H. Opitz and W. König, Zerspanbarkeit von Werkstücken aus verschiedene Schmelzen des Stahles Ck 45, Archiv Für Das Eisenhüttenwesen, vol.33, issue.12, pp.831-839, 1962.

H. Opitz and W. König, On the wear of cutting tools. Presented at the Proc. 8th Int. MTDR Cpnf, 1967.

M. C. Orlandi, Lexique à l'usage des utilisateurs, 1998.

D. Pajani, Thermographie Principes et mesure, Techniques de l'Ingénieur (Vol. base documentaire : TIB542DUO.). Editions T.I. Retrieved from, 2013.

Z. Pálmai, A new, physically defined function to describe the wear of cutting tools, Wear, vol.27, issue.2, pp.251-258, 1974.

Z. Pálmai, The effect of deoxidation of steel on machinability, Wear, vol.38, issue.1, pp.1-16, 1976.

Z. Pálmai, The effect of a non-metallic material deposit in decreasing the wear of TiN-coated high speed steel cutting tools, Wear, vol.95, issue.1, pp.1-7, 1984.

F. B. Pickering, Inclusions. London: The Institution of Metallurgists, 1979.

A. Pokorny and J. Pokorny, Inclusions non métalliques dans l'acier. Techniques de l'ingénieur, 1988.

G. Poulachon, Aspects phénoménologiques, mécaniques et métallurgiques en tournage c-BN des aciers durcis. Application : usinabilité de l'acier 100Cr6. Ecole Nationale Supérieure d'Arts et Métiers, 1999.

L. Puigsegur, September 6). Caractérisation thermique d'un procédé d'usinage par tournage : Approche analytique et par identification de systèmes non entiers, 2002.

H. S. Qi, Formation of a transfer layer at the tool-chip interface during machining, Wear, vol.245, issue.1-2, pp.474-483, 2000.

H. S. Qi and B. Mills, On the formation mechanism of adherent layers on a cutting tool, Wear, vol.198, issue.1-2, pp.192-196, 1996.

J. Rech, C. Claudin, and E. Eramo, Identification of a friction model-Application to the context of dry cutting of an AISI1045 annealed steel with a TiN-coated carbide tool, Tribology International, vol.42, pp.738-744, 2009.

P. E. Reynold, M. Rocher, E. Deramo, H. Langner, W. Hockauf et al., Technically and commercially viable alternatives to lead as machinability enhancers in steel used for automotive components manufacture, p.163, 2005.

H. Rhee, T. Vorburger, J. W. Lee, and J. Fu, Discrepancies between roughness measurements obtained with phase-shifting and white-light interferometry, Applied Optics, vol.44, issue.28, pp.5919-5927, 2005.

D. Robat, P. Jacquot, H. Michel, J. Bellot, and M. Gantois, Presented at the 11th Int, Machinability of steels containing controlled inclusions in turning with carbide or TiN-coated H.S.S. steels, vol.2, pp.433-453, 1985.

S. Ruppi, B. Hogrelius, and M. Huhtiranta, TiN and Al2O3 coatings in the turning of conventional and Ca-treated steels, International Journal of Refractory Metals and Hard Materials, vol.16, issue.4-6, pp.353-368, 1998.

E. Schneider, Etude des mécanismes de formation des couches de transfert non métalliques -Applications aux aciers à très hautes caractéristiques mécaniques à usinabilité améliorée, 2009.

M. C. Shaw, Metal Cutting Principles, 1984.

O. E. Simaro and L. E. Dutari, The Production of Free Cutting and Improved Machinability Steels, with and without Lead Addition, at Acindar's Steelmaking Shop, Presented at the 2003 ISSTech Conference Proceedings, 2003.

C. E. Sims and F. B. Dahle, Effect of Aluminium on the Properties of Medium Carbon Steel. Transaction of the American Foundrymen's Association, vol.46, pp.65-132, 1938.

S. V. Subramanian, H. O. Gekonde, G. Zhu, X. Zhang, U. Urlau et al., Inclusion engineering of steel to prevent chemical tool wear, Ironmaking and Steelmaking, vol.31, issue.3, pp.249-257, 2004.

K. Tasaka, T. Akasawa, S. Katayama, and K. Kuroiwa, Effect of Deoxidation on Nonmetallic Inclusions in Steel and the Machinability, Tetsu-to-Hagane, vol.57, issue.13, pp.2076-2089, 1971.

F. W. Taylor, On the art of cutting metals. Transaction of the American Society of Mechanical Engineers, p.28, 1907.

P. Torterat, Les aciers à usinabilité améliorée, Aciers Spéciaux, issue.20, pp.16-28, 1972.

E. M. Trent, Cutting steel and iron with cemented carbide tools, Part III The influence of metallurgical factors in the flow zone, J. Iron and Steel Institute, pp.1001-1015, 1963.

E. M. Trent, , 1967.

E. M. Trent and P. Wright, Metal Cutting, 2000.

B. Vasques, Etude du comportement du rayon d'arête et de son influence sur l'intégrité de surface en tournage à sec, 2008.

G. Vierigge, Die Energieverteilung und die Temperatur bei der Zerspannung, Werkstatt Und Betrieb, vol.86, pp.691-695, 1953.

A. Wicher and R. Pape, Metallurgische Voraussetzungen für die Bildung oxydischer Beläge auf Hartmetallwerkzeugen bei der Zerspanung von Stahl, vol.87, pp.1262-1269, 1967.

A. Wicher and R. Pape, Über die Bildung oxydischer Beläge auf Hartmetallwerkzeugen bei der Zerspanung von Stahl, vol.87, pp.1169-1178, 1967.

J. E. Williams, E. F. Smart, and D. R. Milner, The metallurgy of machining -Part 2: The cutting of single phase, two phase and some free machining alloys, Metallurgia, vol.81, issue.484, pp.51-59, 1970.

C. Wojcik, Etude sur l'usinage. Méthodes et vitesses d'usinage -Calcul des temps -Amélioration du matériel, pp.5-21, 1935.

H. Yaguchi, Effect of MnS inclusion size on machinabilty of low-carbon, leaded, resulfurized free-machining steel, Journal of Applied Metalworking, vol.4, pp.214-225, 1986.

Y. Yamane, H. Usuki, B. Yan, and N. Narutaki, The formation of a protective oxide layer in machining resulphurized free-cutting steels and cast irons, Wear, vol.139, issue.2, pp.195-208, 1990.

F. Zemzemi, J. Rech, W. Bensalem, A. Dogui, and P. Kapsa, Identification of a friction model at tool/chip/workpiece interfaces in dry machining of AISI4142 treated steels, Journal of Materials Processing Technology, vol.209, pp.3978-3990, 2009.

X. Zhang, H. Roelofs, S. Lemgen, U. Urlau, and S. V. Subramanian, Application of thermodynamic model for inclusion control in steelmaking to improve the machinability of low carbon free cutting steels, Steel Research International, vol.75, issue.5, pp.314-321, 2004.