Research on 5 Axis Tool-Path Based on Constant Shearing Stress for Milling Thin-Wall Ceramics

Quan Ping Sun; Hai Bing Wu; Qian Liang Chen

doi:10.4028/www.scientific.net/AMM.778.152

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Research on 5 Axis Tool-Path Based on Constant Shearing Stress for Milling Thin-Wall Ceramics
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 778Research on 5 Axis Tool-Path Based on Constant...

Research on 5 Axis Tool-Path Based on Constant Shearing Stress for Milling Thin-Wall Ceramics

Abstract:

Ceramics is a material of hardness and brittle, so crack arises easily when it is machined. To improve its cutting performance and enhance machining quality, a dynamic model based on constant-shearing-stress is built for milling ceramics, therefore some cutting parameters can be optimized by the model for no crack machining; moreover, an algorithm of 5 axis tool-path designed with constant-shearing-stress is put forward. According to the model and the algorithm, 5 axis tool paths of decreasing-cutting-depth and decreasing-feed-rate are realized; these are really accurate and smooth through VERICUT software simulating. Using Mikron high-speed machining center, several experiments were done to find a good method of crack control in milling thin-wall ceramics. The results show that the experiment based on the 5 axis tool paths with high pressure air cooling and regional cutting is rather successful because of no cracking in cutting thin-wall ceramics, compared to others.