摘要
围绕复杂曲面零件数控加工中精度与效率的核心问题,深入探讨基于数控仿真技术的加工工艺优化及误差补偿策略。通过系统剖析数控仿真技术原理,从加工工艺参数优化、刀具路径规划等维度构建工艺优化体系。同时,基于误差来源分析,构建多方法融合的误差补偿模型。研究成果能够为复杂曲面零件数控加工提供理论支撑与实践路径,助力提高制造业高端加工水平。
Focusing on the core issues of precision and efficiency in computer numerical control machining of complex curved parts,the optimization of machining processes and error compensation strategies are deeply explored based on computer numerical control simulation technology.By systematically analyzing the principles of numerical control simulation technology,a process optimization system is constructed from dimensions such as machining process parameter optimization and tool path planning.Meanwhile,based on the analysis of error sources,a multi method fusion error compensation model is constructed.The research results can provide theoretical support and practical paths for computer numerical control machining of complex curved parts,helping to improve the high-end machining level of the manufacturing industry.
作者
张浩
李森翔
刘若男
ZHANG Hao;LI Senxiang;LIU Ruonan(AVIC Xi’an Aircraft Industry Group Co.,Ltd.,Xi’an 710089)
出处
《现代制造技术与装备》
2025年第12期156-158,共3页
Modern Manufacturing Technology and Equipment
关键词
数控仿真
复杂曲面零件
加工工艺优化
误差补偿
多轴联动加工
computer numerical control simulation
complex curved surface parts
machining process optimization
error compensation
multi-axis linkage machining
