J. Destefani Introduction to titanium and titanium alloys, properties and selection: nonferrous alloys and special-purpose materials vol. 2 1990 ASM Handbook
J. Barry, G. Byrne, and D. Lennon Observations on chip formation and acoustic emission in machining Ti-6Al-4V alloy Int J Mach Tools Manuf 41 2001 1055 1070 (Pubitemid 32272842)
A. Molinari, C. Musquar, and G. Sutter Adiabatic shear banding in high speed machining of Ti-6Al-4V: experiments and modeling Int J Plast 18 2002 443 459 (Pubitemid 34181544)
D. Owen, and M. Vaz Computational techniques applied to high-speed machining under adiabatic strain localization conditions Comput Methods Appl Mech Eng 171 1999 445 461
Fourment L, Delalondre F. A 3D study of the influence of friction on the Adiabatic Shear Band formation during High Speed Machining. In: Proceedings of the ESAFORM2008 conference; 2008.
M. Bäker, J. Rosler, and C. Siemers A finite element model of high speed metal cutting with adiabatic shearing Comput Struct 80 2002 495 513 (Pubitemid 34284529)
R. Komanduri, and B.V. Turkovich New observations on the mechanism of chip formation when machining titanium alloys Wear 69 1981 179 188
R. Komanduri Some clarifications on the mechanics of chip formation when machining titanium alloys Wear 76 1982 15 34 (Pubitemid 12524371)
Z. Hou, and R. Komanduri Modeling of thermomechanical shear instability in machining Int J Mech Sci 39 1997 1279 1314
A. Vyas, and M.C. Shaw Mechanics of saw-tooth chip formation in metal cutting J Manuf Sci Eng 121 1999 163 172
J. Hua, and R. Shivpuri Prediction of chip morphology and segmentation during the machining of titanium alloys J Mater Process Technol 150 2004 124 133
Castro LR. Identification des sources de vibration en usinage, Etude expérimentale et numérique [Ph.D. thesis]. Université Paul Verlaine, Metz; 2006.
Y. Bai, and B. Dodd Adiabatic shear localisation: occurrence, theories and applications 1992 Pergamon Press
H. Giovanola Adiabatic shear banding under pure shear loading. Part II: fractographic and metallographic observation Mech Mater 7 1988 73 87
T. Seshacharyulu, S. Medeiros, J. Morgan, J. Malas, W. Frazier, and Y. Prasad Hot deformation and microstructural damage mechanisms in extra-low interstitial (ELI) grade Ti-6Al-4V Mater Sci Eng A 279 2000 289 299 (Pubitemid 30168172)
M. Calamaz, D. Coupard, and F. Girot A new material model for 2D numerical simulation of serrated chip formation when machining titanium alloy Ti-6Al-4V Int J Mach Tools Manuf 48 2008 275 288
Calamaz M. Etude des mécanismes dendommagement des outils carbure WC-Co par la caractérisation de linterface outil-copeau - Application à lusinage de lalliage de titane aéronautique TA6V [Ph.D. thesis]. Université de Bordeaux; 2008.
M. Calamaz, D. Coupard, and F. Girot Numerical simulation of titanium alloy dry machining with a strain softening constitutive law Mach Sci Technol: Int J 14 2010 244 257
M. Sima, and T. Özel Modified material constitutive models for serrated chip formation simulations and experimental validation in machining of titanium alloy Ti-6Al-4V Int J Mach Tools Manuf 50 2010 943 960
Johnson G, Cook W. A constitutive model and data for metals subjected to large strains, high strain rates and high temperatures. In: Proceedings of the seventh international symposium on ballistics. The Hague, The Netherlands; 1983. p. 541-7.
S. Sun, M. Brandt, and M. Dargusch Characteristics of cutting forces and chip formation in machining of titanium alloys Int J Mach Tools Manuf 49 2009 561 568
Ducobu F. Contribution à l'étude de la formation du copeau de Ti6Al4V en coupe orthogonale. Approches numérique et expérimentale pour la compréhension des mécanismes de coupe macroscopique et microscopique (Contribution to the study of Ti6Al4V chip formation in orthogonal cutting. Numerical and experimental approaches for the comprehension of macroscopic and microscopic cutting mechanisms) [Ph.D. thesis]. University of Mons (UMONS), Faculty of Engineering (FPMs); 2013.
H.W. Meyer, and D.S. Kleponis Modeling the high strain rate behavior of titanium undergoing ballistic impact and penetration Int J Impact Eng 26 2001 509 521 (Pubitemid 33796529)
T. Özel, and E. Zeren Numerical modelling of meso-scale finish machining with finite edge radius tools Int J Mach Mach Mater 2 2007 451 768
Goeffers E. Simulation numérique de la formation du copeau et détermination des efforts de coupe en fraisage du Ti6Al4V [Masters thesis]. Faculté Polytechnique de Mons, Mons; 2008.
J. Sun, and Y.B. Guo Material flow stress and failure in multiscale machining titanium alloy Ti-6Al-4V Int J Adv Manuf Technol 41 2009 651 659
Lesuer DR. Experimental investigations of material models for Ti-6Al-4V Titanium and 2024-T3 Aluminum. Technical Report. Lawrence Livermore National Laboratory; 2000.
Pantalé O. Plateforme de prototypage virtuel pour la simulation numérique en Grandes Transformations Thermomécaniques Rapides. Technical Report. Institut National Polytechnique de Toulouse; 2005.
R. Ding, Z. Guo, and A. Wilson Microstructural evolution of a Ti-6Al-4V alloy during thermomechanical processing Mater Sci Eng A 327 2002 233 245 (Pubitemid 34271527)
W. Lee, and C. Lin High-temperature deformation behaviour of Ti6Al4V alloy evaluated by high strain-rate compression tests J Mater Process Technol 75 1998 127 136 (Pubitemid 128408394)
S. Lampman Wrought titanium and titanium alloys, Properties and selection: nonferrous alloys and special-purpose materials vol. 2 1990 ASM Handbook
M. Nasr, E.-G. Ng, and M. Elbestawi Effects of workpiece thermal properties on machining-induced residual stresses - thermal softening and conductivity Proc Inst Mech Eng B: J Eng Manuf 221 2007 1387 1400
K. Woon, M. Rahman, F. Fang, K. Neo, and K. Liu Investigations of tool edge radius effect in micromachining: a FEM simulation approach J Mater Process Technol 167 2007 316 337
T. Mabrouki, F. Girardin, M. Asad, and J.-F. Rigal Numerical and experimental study of dry cutting for an aeronautic aluminium alloy (A2024-T351) Int J Mach Tools Manuf 48 2008 1187 1197
HKS. Abaqus Analysis Users Manual, Version 6.8, Dassault Systèmes, 2008.
J. Lorentzon, N. Jarvstrat, and B. Josefson Modelling chip formation of alloy 718 J Mater Process Technol 209 2009 4645 4653
F. Ducobu, E. Rivière-Lorphèvre, and E. Filippi Influence of the material behavior law and damage value on the results of an orthogonal cutting finite element model of Ti6Al4V Proc CIRP 8 2013 378 383
S. Sun, M. Brandt, and M. Dargusch Machining Ti-6Al-4V alloy with cryogenic compressed air cooling Int J Mach Tools Manuf 50 2010 933 942
D. Umbrello, R. MSaoubi, and J. Outeiro The influence of Johnson-Cook material constants on finite element simulation of machining of AISI 316L steel Int J Mach Tools Manuf 47 2007 462 470 (Pubitemid 44908903)
F. Ducobu, E. Rivière-Lorphèvre, and E. Filippi A Lagrangian FEM model to produce saw-toothed macro-chip and to study the depth of cut influence on its formation in orthogonal cutting of Ti6Al4V Adv Mater Res 223 2011 3 11
