A Method for Restraining Axial Force in Process of Helical Milling of CFRP
DONG Zhigang, ZHANG Bo, KANG Renke, YANG Guolin, BAO Yan
(Key Laboratory for Precision and Non-Traditional Machining Technology of Ministry of Education, Dalian University of Technology, Dalian 116024, China)
Abstract:In the process of helical milling of carbon fiber reinforced polymer (CFRP), defects such as delamination, tearing and burr at the hole making outlet are caused by excessive axial force produced by the end edge of the tool. In order to reduce the axial force in the helical milling of CFRP, the relationship between the tool end backlash angle and the undeformed chip was analyzed based on the kinematic principle, thus a method was proposed to make the center area with low cutting line speed not participate in the cutting. Furthermore, the condition that the tool center does not participate in cutting was deduced, and the shape of undeformed chip under different combination of end backlash angle and lead is simulated. Finally, the helical milling test was carried out on CFRP. The results show that by increasing the tool end backlash angle and reducing the lead, the center area of the end edge in the helical milling can do not participate in the cutting, so as to reduce the axial force in the helical milling of CFRP effectively.
董志刚,张博,康仁科,杨国林,鲍岩. CFRP螺旋铣孔加工中的轴向力抑制方法[J]. 航空制造技术, 2020, 63(17): 14-20.
DONG Zhigang, ZHANG Bo, KANG Renke, YANG Guolin, BAO Yan. A Method for Restraining Axial Force in Process of Helical Milling of CFRP. Aeronautical Manufacturing Technology, 2020, 63(17): 14-20.