Study on Dynamic Accuracy of CNC in Aviation Part

Li Du; Wei Wang; Zhi Yong Song; Jie Xiong Ding

doi:10.4028/www.scientific.net/AMR.314-316.1717

Paper Titles

Application of MECHATROLINK-II Fieldbus in Multi-Axis Embedded CNC System
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Study on the Spindle Error Test and Analysis System of Numerical Control Machine Tools
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Parameter Determination of Multiple Probes Scanning Method for Profile Measurement
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Strength and Fatigue Analyses on Rotor in High Speed MU Traction Motor under Different Operating States
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Study on Dynamic Accuracy of CNC in Aviation Part
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The Effects of Curvature Radius on Cutting Force and Stability during End Milling
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Wire Electrical Discharge Machining (Wire EDM) Cutting of Flexures for a Rotary Flexural Bearing Fabrication
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Tool Path Optimization Based on the Constrain of Radial Cutting Depth in High Speed Milling
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Study on Material Removal Mechanism of Silicon Nitride during ELID Ultraprecision Grinding
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 314-316Study on Dynamic Accuracy of CNC in Aviation Part

Study on Dynamic Accuracy of CNC in Aviation Part

Abstract:

Thin-walled parts are widely used in aerospace engineering. For their complexity under loading and the higher shape precision, it’s difficult for their manufacturing on high speed machine. In order to understand manufacture process, characteristic of aviation part in high speed machining is investigated. Error sources on parts are classified and the maximum error, dynamic errors are studied on its main influence factors, such as cutting force and vibration. Finally, useful method on cutting test part is proposed, which can observe and control dynamic accuracy of aviation part and ensure effective manufacture.

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Advanced Manufacturing Technology, ADME 2011

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Periodical:

Advanced Materials Research (Volumes 314-316)

Pages:

1717-1720

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.314-316.1717

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Online since:

August 2011

Authors:

Li Du, Wei Wang, Zhi Yong Song, Jie Xiong Ding

Keywords:

Aviation Part, Dynamic Accuracy, High Speed Machining (HSM), S Par

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References

[1] Lamikiz, A., Lopez, L.N., Celaya, A. Machine tool performance and precision. Spring, (2009)

Google Scholar

[2] Ibaraki, S., Sawada, M., Matsubara, A. Machining tests to identify kinematic errors on five-axis machine tools. Precision Engineering, 2010:34(3):387-398

DOI: 10.1016/j.precisioneng.2009.09.007

Google Scholar

[3] Schmitz, T.L, Ziegert, J.C., Zapata, R. Part accuracy in high-speed machining: Preliminary results. Proceeding of MESC 2006, Ypsilanti, USA

DOI: 10.1115/msec2006-21100

Google Scholar

[4] Altintas, Y. A general mechanics and dynamics model for helical and mills. Annal of the CIRP.1996, 45(1): 59-64

Google Scholar

[5] Stepan, G. Modelling nonlinear regenerative effect in metal cutting. Proceeding of the royal society A, Mathmatical, Physical and Engineering Sciences, 2001, 359:739-757

Google Scholar

[6] 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

Google Scholar