1Johnson G R,Cook W H.A Constitutive Model and Data for Metals Subjected to Large Strains,High Strain Rates and High Temperature[C].Seventh International Symposium on Ballistics Haugue,Netherlands,1983.
3OZEL T,AL TAN T.Process Simulation Using Finite Element Method-prediction of Cutting Forces,Tool Stresses and Temperatures in High Speed Flat End Milling[J].International Journal of Machine Tools &Manufacture,2000,40:713-738.
3Li Z, Steven Y L, Shreyes N M. Angle Domain Analytical Model for End Milling Forces [J]. Trans ASMEJ. Manuf. Sci. Eng.,1998,120:252-258.
4Budak E, Altintas Y. Modeling and Avoidance of Static form Errors in Peripheral Milling of Plates [J]. Int. J. Mach. Tools & Manuf, 1995,35(3): 459-476.
5臼井英治.切削磨削加工学[M].北京:机械工业出版社,1982,12.482-493.
6SALOMON C J. Process for the machining of metals of similarly acting materials when being worked by cutting tools: German, 523594[P]. 1931-04.
7BAKER M, R OSLER J, SIEMERS C. A finite element model of high speed metal cutting with adiabatic shearing[J].Computers and Structures, 2002, 80: 495-513.
8OZEL T. Investigation of high-speed flat end milling process-prediction of chip formation, cutting forces,tool stresses and temperature [D]. Ohio: The Ohio State University, 1998.
9KALPAKJIAN S. Manufacturing process for engineering materials[M]. 3rd ed. Menlo Park: Addison-Wesley/Long-man, 1997.
10DJAPIC L, IVANKOVIC A, VENIZELOS G. High strain rate properties of selected alumininum alloy[D]. Materials Science and Engineering, 2000, A278:225 - 235.