Optimization Design Method of High Speed Milling Cutter Based on Axiomatic Design
Using the theory of axiomatic design, the optimization method of high speed milling cutter was investigated, and the optimization designs of teeth distribution and dynamic balancing were created by means of function decomposition and grey cluster analysis. Results showed that the method solved effectively the problem of parameters interaction and functions coupling in optimization design of cutter, the effects of simplifying design process and improving collaborative design were validated in development of cutter. Experiments indicated that the vibration in high speed machining aluminum alloy was depressed, the cutter held higher cutting stability, and its cutting performance met the optimization design requirement of high speed milling cutter.
Yingxue Yao, Dunwen Zuo and Xipeng Xu
B. Jiang et al., "Optimization Design Method of High Speed Milling Cutter Based on Axiomatic Design", Key Engineering Materials, Vols. 431-432, pp. 314-317, 2010