High speed machining of aisi 1050 steel: Modelling and experimental

International Journal of Material Forming

Volumn 1, Issue SUPPL. 1, 2008, Pages 1439-1441

  Soldani, X ^a   Moufki, A ^a   Molinari, A ^a   Budak, E ^b   Ozlu E ^b  

^a UNIVERSITÉ PAUL VERLAINE METZ   (France)

^b SABANCI UNIVERSITY   (Turkey)

Author keywords

Friction; High speed machining; Modelling

Indexed keywords

ANALYTICAL APPROACH; CHIP FORMATIONS; CUTTING CONDITIONS; EXTREME CONDITIONS; FRICTION LAWS; HIGH SPEED MACHINING; INERTIA EFFECTS; MATERIAL CHARACTERISTICS; MATERIAL FLOW; MODEL PREDICTION; ONE-DIMENSIONAL APPROACH; ORTHOGONAL CUTTING; SHEAR ZONE; STATIONARY FLOW; STRAIN RATE SENSITIVITY; TEMPERATURE DEPENDENT; THERMAL SOFTENING; THERMO-MECHANICAL COUPLING; TOOL-CHIP INTERFACE;

CUTTING TOOLS; FRICTION; MACHINING; STRAIN HARDENING; TRIBOLOGY;

STRAIN RATE;

EID: 78651533805     PISSN: 19606206     EISSN: 19606214     Source Type: Journal    
DOI: 10.1007/s12289-008-0107-z     Document Type: Article

References (3)

1. Molinari A., Dudzinski D., (1992) Stationnary shear band in high-speed machining. C. R. Acad. Sci. Paris. 315 (II), 399-405.
2. Jaspers S. P. F. C., Dautzenberg J. H., (2001) Material behaviour in conditions similar to metal cutting: flow stress in the primary shear zone. J. of Mat. Process. Tech. 122, 322-330.
3. Moufki A., Molinari A. et Dudzinski D., (1998) Modelling of orthogonal cutting with a temperature dependant friction law. J. of the Mech. and Phys. of Solids. 46 (10), 2103-2138.