摘要
针对大型叶片磨削难题,采用计算机辅助几何学、微分几何学等技术手段,通过对柔性磨削技术、砂带磨削机床的研究以及分析加工误差,优化了加工轨迹及加工工艺参数,解决了对复杂曲面砂带磨削的加工轨迹规划问题,实现了对大型叶片的快速加工。
This paper aims to solve the problem of large-scale blade grinding.It uses computer-aided geometry,differential geometry and others,through the study of flexible grinding technolo-gy and belt grinding machine.It optimized toolpaths and Processing Technological parameters by analyzing the machining error.It Solved trajectory planning issues of complex surface machining belt grinding and achieve rapid processing of large-scale blade.
出处
《机床与液压》
北大核心
2014年第24期62-66,共5页
Machine Tool & Hydraulics
基金
Project supported by the Scientific and Technological Project of Chongqing Science&Technology Commission(ID:cstc2012gg-yyjs70006)
关键词
大型叶片
砂带磨削
轨迹规划
误差分析
工艺参数
Large-scale blade
Belt grinding
Path generation
Error analysis
Technological pa-rameter
