Abstract:In order to research the effect of process parameters on removal depth in the process of robot grinding epoxy coating on aircraft skin, a robot automatic grinding platform was built. According to Preston equation, the removal model of epoxy coating was established. The workpiece grinding process was simulated by Deform software and the influence of process parameters on removal depth under the single factor condition was studied. The regression mathematical model of removal depth and workpiece grinding test are established for theoretical analysis and verification. The results show that the removal depth is directly proportional to the grinding pressure and tool rotation speed, inversely proportional to the tool feed speed and abrasive particle size. Grinding pressure has great influence on removal depth, while tool rotation speed has relatively little influence on removal depth. During the grinding process, the uniform removal is realized by controlling the constant contact force and good surface quality is obtained.
基金资助: 国家自然科学基金资助项目(51775542)。
作者简介: 田凤杰,教授,博士,主要从事机器人先进制造理论与技术应用研究。
引用本文:
田凤杰,邓聪,韩晓,李论 . 机器人打磨飞机蒙皮环氧树脂涂层工艺研究[J]. 航空制造技术, 2021, 64(20): 14-20.
TIAN Fengjie,DENG Cong,HAN Xiao,LI Lun. Research on Technology of Robot Grinding on Epoxy Coating for Aircraft Skin. Aeronautical Manufacturing Technology, 2021, 64(20): 14-20.