[1]周济,周艳红编著.数控加工技术[M],2002:297.
[2]Woo T C. Visibility Maps and Spherical Algorithms [J]. Computer-aided Design, 1994,26(1) :6-16.
[3]Radzevich S P,Goodman E D. Computation of Optimal Workpiece Orientation for Multi--axis NC Machining of Sculptured Part Surfaces[J]. ASME Journal of Mechanical Design,2002,124:201-212.
[4]Elber G. Accessibilty in 5- axis Milling Environment[J]. Computeraided Design, 1994,26 (11) : 796-802.
[5]Elber G, Zussman E. Cone Visibility Decomposition of Freeform Surfaces[J]. Computer-- aided Design, 1998,30(4) : 315-320.
[6]Chen Z C,Dong Z,Vickers G W. Automated Surface Subdivision and Tool Path Generation for 3 1/2 1/2- axis CNC Machining of Sculptured Parts[J]. Computers in Industry, 2003,50 : 319-331.
[7]Roman A, Bedi S, Ismail F. Three-- half and Halfaxis Patch--by--patch NC Machining of Sculptured Surfaces [J ]. International Journal of Advanced Manufacturing Technology,2006,29:524-531.
[8]Wang N,Tang K. Five--axis Tool Path Generation for a Flat--end Tool Based on Iso--conic Partitioning[J ]. Computer -- aided Design, 2008, 40 (12) : 1067-1079.
[9]Jun C S, Cha K, Lee Y S. Optimizing Tool Orientations for 5- axis Machining by Configurationspace Search Method[J]. Computer-aided Design, 2003,35(13) :549-566.
[10]Yin Z P,Ding H,Xiong Y L. Visibility Theory and Algorithms with Application to Manufacturing Processes[J]. International Journal of Production Research, 2000,38 (13) : 2891-2909.
[11]Choi B K, Jerard R B. Sculptured Surface Machining:Theory and Application[M]. Boston: Kluwer Academic Publishers, 1998.
[12]Ho M C, Hwang Y R, Hu C H. Five-- axis Tool Orientation Smoothing Using Quaternion Interpolation Algorithm[J]. International Journal of Machine Tools & Manufacture, 2003,43 (12) : 1295- 1267.
[13]Lauwers B, Kruth J P, Dejonghe P. An Operation Planning System for Multi--axis Milling of Sculptured Surfaces [ J]. International Journal of Advanced Manufacturing Technology, 2001,17 : 799- 804.
[14]doCarmo M P.曲线与曲面的微分几何[M].田畴,译.北京:机械工业出版社,2005.
[15]Preparata F P,Shamos M I.计算几何导论[M].庄心谷,译.北京:科学出版社,1990.
[16]Makhanov S. Optimization and Correction of the Tool Path of the Five--axis Milling Machine Part 2:Rotations and Setup[J]. Mathematics and Computers in Simulation,2007,75(6) :231-250.
[17]Makhanov S. Optimization and Correction of the Tool Path of the Five axis Milling Machine Part 1 : Spatial Optimization[J]. Mathematics and Computers in Simulation, 2007,75 (5) : 210-230.
[18]Chiou C J, Lee Y S. A Machining Potential Field Approach to Toot Path Generation for Multi--axis Sculptured Surface Machining[J]. Computer-- aided Design,2002,34(13) :357-371.
[19]Lee Y S,Chang T C. 2--phase Approach to Global Tool Interference Avoidance in 5--axis Machining [J]. Computer- aided Design, 1995,27 (10) : 715- 729.
[20]Yoon J H, Pottmann H, Lee Y S. Local Optimal Cutting Position for 5- axis Sculptured Surface Machining[J]. Computer-- aided Design, 2003,35 (13) :69-81. |