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基于解析法的整体式叶轮侧铣高精加工技术
引用本文:余道洋,韩江,赵韩. 基于解析法的整体式叶轮侧铣高精加工技术[J]. 中国机械工程, 2015, 26(3): 304-307
作者姓名:余道洋  韩江  赵韩
作者单位:合肥工业大学,合肥,230009
基金项目:国家自然科学基金资助项目,合肥工业大学校基金资助项目
摘    要:提出了加工非可展直纹面刀轴矢量的解析解法,给出了解析解法的加工误差,并将其与“R偏置法”的侧铣加工方法的误差进行了比较。计算结果证明,该方法减小了理论误差。应用MATLAB绘制了依据该方法计算出的叶片刀轴轨迹。最后,通过数控加工试验验证了所提出方法的正确性。加工结果表明,加工误差在允许加工误差范围内,叶轮加工表面质量好。

关 键 词:侧铣  非可展直纹面  解析法  加工误差  

High Precision Machining Technology Based on Analytical Method for Integral Impeller with Flank Milling
Yu Daoyang,Han Jiang,Zhao Han. High Precision Machining Technology Based on Analytical Method for Integral Impeller with Flank Milling[J]. China Mechanical Engineering, 2015, 26(3): 304-307
Authors:Yu Daoyang  Han Jiang  Zhao Han
Affiliation:Hefei University of Technology,Hefei,230009
Abstract:This paper proposed machining non-developable ruled surface cutter axis vector's analytical method, provided the  analytical method's machining error and compared with the “R offset” flank milling method's error. The results prove  that the prposed melhod can reduce the theoretical errors. Then the blade tool path trajectory was drew by the algorithm with MATLAB software. Finally, NC machining experiments verified the proposed algorithm, the machining results show that the machining errors are within the allowable machining error range and the machining surface quality of impeller is good.
Keywords:flank milling  non-development ruled surface  analytical method  machining error
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