科技创新与应用2025,Vol.15Issue(29):6-9,4.DOI:10.19981/j.CN23-1581/G3.2025.29.002
基于八轴五联动的快速成型复合加工系统设计
摘要
Abstract
This paper studies an 8-axis 5-linkage composite machining rapid prototyping system.Aiming at the problems of insufficient 3D printing accuracy and complex traditional CNC machining technology,a composite machining system integrating additive and subtractive manufacturing is proposed and designed.The system achieves high-precision multi-directional control through 8-axis 5-linkage technology,and combines pressurized particulate melt extrusion technology to optimize material properties.The research results show that the system effectively improves manufacturing accuracy and production efficiency,reduces manufacturing costs,and can be widely used in aerospace,automobile manufacturing and other fields.The conclusion is that this system provides an efficient and precise manufacturing solution for the manufacturing industry and plays an important role in promoting technological innovation and industrial upgrading.关键词
增减材复合制造/八轴五联动/工艺优化/结构设计/多向控制Key words
additive and subtractive hybrid manufacturing/8-axis 5-linkage/process optimization/structural design/multi-directional control分类
机械制造引用本文复制引用
刘松,向冬平..基于八轴五联动的快速成型复合加工系统设计[J].科技创新与应用,2025,15(29):6-9,4.基金项目
2023年教育部高等学校科学研究发展中心项目(2023KY016) (2023KY016)
2022年广东省高职院校产教融合创新平台(2022CJPT008) (2022CJPT008)
