摘要
通过对逆向工程及3D打印在复杂结构件修复中的优势进行分析,提出了应用逆向工程及3D打印进行结构件修复的流程,并以实训设备抽油泵中应用实现修复为实例进行论证。重点介绍了抽油泵叶轮的逆向工程建模以及3D打印操作过程,验证了逆向工程及3D打印在复杂结构件修复中应用的可行性及推广前景。
Through the analysis of the advantages of reverse engineering and 3 D printing in the repair of complex structural parts, the process of applying reverse engineering and 3 D printing to repair the structure is proposed, and the application of repair in the pumping equipment of training equipment is taken as an example to demonstrate. The reverse engineering modeling and 3 D printing operation process of the pump impeller are introduced, and the feasibility and promotion prospect of reverse engineering and 3 D printing in the repair of complex structures are verified.
引文
[1]张序,李兆堃,罗小华,等.应用三维激光扫描测量进行文物逆向工程恢复[J].测绘科学,2013,38(06):169-171.
[2]郭慧.基于叶轮的逆向工程及快速成形在实训教学中的应用[J].现代制造技术与装备, 2017(03):182-184.
[3]孙进,朱兴龙,闫大战,等.基于逆向工程的工艺品设计及快速成型[J].机械设计与制造工程,2015,44(08):30-33.
[4]高奇,李卫民,曾红.逆向工程与3D打印在大学生开放实验中的应用[J].实验室研究与探索,2018,37(01):208-210.
[5]陈雪芳,孙春华.逆向工程与快速成型技术应用[M].第二版.北京:机械工业出版社,2015.
[6]彼得·马什.新工业革命[M].北京:中信出版社,2013.
[7]雷蔓,吕健,刘征宏,等.基于逆向工程与3D打印的工艺品保护与开发[J].制造业自动化,2014,36(09):141-144.
[8]王晓晓,甘辉.加湿器外壳逆向工程与3D打印的应用[J].电子技术与软件工程,2015(16):192.
[9]龚运息.逆向工程及3D打印技术在微车发动机风扇开发中的集成应用[J].科技与企业, 2013(17):299-300.
[10]郝炜,袁品均,郑金辉,等.逆向技术在飞机导管维修中的应用[J].机械,2017,44(08):70-73.