NC Milling Machining Friction Forging Die Based on UG NX4

Author:

Feng Xian Zhang1,Li Jing2,Wang Zhen1,Jiang Zhi Qiang1,Cheng Jun Wei1,Chen Liang Ji1,Chen Liu Guang1

Affiliation:

1. Zhengzhou Institute of Aeronautical Industry Management

2. Shanghai Jiao Tong University

Abstract

The curved surface of friction forging mould parts is a smooth surface which consist of circular arc camber and slope surface. Using UG as a platform, we can Carry on the processing programming and tool path simulation for the friction forging mould parts. According to the same parts we can use different cutting ways and methods to processing programming. By comparing the different cutting ways,we can obtained the optimal tool path and the ways to solve round knife phenomenon. In this way, we can Complete the programming of the forging mould parts and improve the correctness of the programming efficiency. The program's establishment method and thought Can act as a reference for the parts which has the same characteristics.

Publisher

Trans Tech Publications, Ltd.

Reference9 articles.

1. Xiong Liangshan, Yan Xiaoguang. Furun Machinery manufacturing technology base. Huazhong University of Science and Technology Press(Second Edition) , 2012. 8.

2. Zhang Xiaohong, Cheng ChenPing. UG NX5 CNC machining practical tutorial Machinery. Industry Press, 2009. 1.

3. Guochao, Xielong Han, Li Delin. UG NX6 CNC Programming Example. Tsinghua University Press, 2009. 1.

4. Xianzhang Feng, Yanmei Cui, Lihong Yu, Liangji Chen, Zhiqiang Jiang. Junwei Cheng. Design of the Typical Claw Structure Using the Technology of LFC. Applied Mechanics and Materials Vol. 459 (2014) pp.469-474.

5. Yuan Feng. NC national selection contest questions. Machinery Industry Press, 2005. 5.

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