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INFLUENCE OF TOOL HELIX ANGLE ON STABILITY IN HIGH-SPEED MILLING PROCESS

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ã€Authorã€‘ Song Qinghua, Ai Xing, Wan Yi, Pan Yongzhi(School of Mechanical Engineering, Shandong University, Jinan, 250061, P.R. China)

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ã€Abstractã€‘ An integrated dynamic model considering the influence of the helix angle is developed through dividing the cutting process into three cutting processes: uninterrupted, entry, and exit cutting processes. The semi-discretized technique is used to approximate the finite dimensional Floquet transition matrix of the dynamic control equation to determine the stability of milling process. The stability charts for helix mills are obtained. Results show that the helix angle plays an important role in the stability of milling process. The stability regions with helix angle become larger than those without helix angle. Some â€³islandsâ€³ are presented in the stability charts, and â€³islandâ€³ locations are determined by the relation between the axial depth of cut and the helix pitch. The â€³islandsâ€³ are connected by the â€³bridgeâ€³ by the effects of entry and exit cutting processes. The theoretical results are validated by milling experiments.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ milling (machining)ï¼› vibration analysisï¼› stabilityï¼› helix angleï¼›

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