| Anode copper’s shackle has rough on the surface and the ascent before manufacture cast from the smelting furnace directly in our country,that causes consume energy in the way becuse electric current the contacted area to reduce process of the electrolysis.With developing, the original resources tendency to lack gradually,so our country develops the feeble-minded high efficiency producting method strongly. Uunder this environment, many factories require machining for the anode copper’s shackle, in order to saving energy and falling consumes, achieved reduces cost of the production.The paper has test the mechanics performance of the anode copper in order to study the cutting parameter and the cutting tool further. the result of test provide the indispensable condition for determined the cutting tool and cutting parameter.In view of the high speed milling process characteristic and based on the high-speed cutting processing mechanism, this paper has established the 3D geometry model of materials rough and the cutting tool according to the characteristic of anode copper’s, milling process and basic theory of the Rigid-plastic finite element and coupled thermal-mechanical. then inducts the model to the DEFOEM-3D softwarethe.the paper has carried on the simulation analysis through the softwarethe. in accordance with result of the simulation, the paper has determined the parameter of cutting process, the parameter of cutting tool.In this foundation, the paper has study the material,the clamp and the adjustment way the joint way conducted of the cutting tool, and designed the cutting tool. In order to examine the processed quality of anode copper shackle and the validate accuracy of simulation, this paper has experimented the high speed milling of anode copper’s shackle. the experiment indicat that the simulated result has the high reliability and the milling effect is good. |
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