Five-axis rough machining for impellers

Young H T, Chuang L C. An integrated machining approach for a centrifugal impeller. Advanced Manufacturing Technology, 2003, 21: 556–563

Wu Pinghan, Li Yuwei. Tool path planning for 5-axis flank milling based on dynamic programming techniques, The International Journal of Advanced Manufacturing Technology, 2008, 52(9): 195–200

Choi B K, Park J W, Jun C S. Cutter-Location data optimization in 5-axis surface machining. Computer-Aided Design, 1993, 25(6): 377–386

Li S X, Jerard R B. 5-axis machining of sculptured surfaces with a flat-end cutter. Computer-Aided Design, 1994, 26(3): 165–178

Kim D W, Heo E Y. Machining region division for impeller rough cut considering tool configuration. Journal of the Korean Society of Machine Tool Engineers, 1997, 25(6): 421–422

Young H T, Chuang L C, Gerschwiler K. A five-axis rough machining approach for a centrifugal impeller. Advanced Manufacturing Technology, 2004, 23: 233–239

Yu Yuan, Yu Min, Wang Xiaochun. Several-stage tool-path scheduling in 5-axis roughing of impeller. Journal of Xi’an Jiaotong University, 2002, 36(1): 39–42 (in Chinese)

Wang Guangkuan, Xi Guang. Machining of 3-d sculptured surface impeller. Journal of Xi’an Jiaotong University, 2005, 39(7): 731–734 (in Chinese)

Li Kang, Guo Lianshui. Research on method of 5-axis NC rough machining of turbine blade. ACTA Aeronautica ET Astronautica Sinica, 2006, 27(3): 505–508

Gershon E, Russ F. 5-axis freeform surface milling using piecewise ruled surface approximation. Journal of Manufacturing Science and Engineering (USA), 1997, 119(8): 383–387