Error Source Identification of Machining Accuracy of Five-Axis Linkage CNC Machine Tools

Author:

Guo Zhi Ping1,Song Zhi Yong1,Shi Rong Bo1

Affiliation:

1. AVIC Chengdu Aircraft Industrial (Group) Co. Ltd

Abstract

The error sources of machining accuracy of CNC machine tools including geometric error, thermal error, system error and error of load control etc. The error source affect the relative position of the cutting tool and the workpiece by the dynamic motion, and then affect the machining accuracy of the workpiece. By trial cutting method, "S" test part is a new test part for detecting machining accuracy of five-axis linkage machine tools. Through experiment and simulation, identification of the error source of the machining accuracy and the regular of "S" test part surface errors, surface quality, results show that "S" test part can reflect the machining accuracy of CNC machine tool.

Publisher

Trans Tech Publications, Ltd.

Subject

General Engineering

Reference6 articles.

1. NAS979: Uniform cutting test-NAS series, metal cutting equipment, (1969).

2. Song, Z.Y., Cui, Y.W. S-shape detection test piece and a detection method for detecting the precision of the numerical control milling machine. US: 20100004777, 2010, 1, 7.

3. Dong Xie, Jiexiong Ding, Yanbo Huo, etc. Modeling of feed-rate predicition for small segment in high speed maching. ICEMI. 2011, Vol. 2: 176-180.

4. Rongbo Shi, Jiming Yan, Zhiping Guo, etc. A New Test Part for Detecting Processing Accuracy of Five Axis CNC Machine Tools. Advanced Materials Research Vols. 468-471.

5. Wang Xiushan, Yang Jianguo, Yu Yongchang. Research of thermal error modeling, measurement and compensation for Two turntable 5-axis NC machine tools. China Mechanical Engineering. 2009, 04. 405-408.

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