摘要
5轴联动加工技术在复杂曲面零件的精密制造中有着天然优势,但因为加工轨迹规划复杂,加上工艺参数优化也挺难,传统方法很难同时兼顾加工精度、效率和表面质量这些目标。针对这个难题,系统研究了基于优化理论和智能算法的5轴联动加工轨迹优化技术。优化后的轨迹明显提升了加工精度和表面粗糙度,还缩短了加工周期,为复杂曲面零件的5轴加工提供了一条高效的优化路径。
Five-axis machining technology has a natural advantage in the precision manufacturing of complex curved surface parts.However,due to the complexity of toolpath planning and the difficulty of process parameter optimization,traditional methods can hardly achieve the goals of machining accuracy,efficiency,and surface quality simultaneously.To address this challenge,this research systematically studies the optimization technology of five-axis machining toolpath based on optimization theory and intelligent algorithms.The optimized toolpath significantly improves machining accuracy and surface roughness while shortening the machining cycle,providing an efficient optimization path for five-axis machining of complex curved surface parts.
作者
杨证皓
Yang Zhenghao(Luanzhou Jieao Building Materials Co.,Ltd.,Tangshan,Hebei 063700,CHN)
出处
《模具制造》
2025年第8期135-137,共3页
Die & Mould Manufacture
关键词
5轴联动加工
轨迹优化
刀具姿态优化
five-axis machining
toolpath optimization
tool orientation optimization
