Research on Chatter Suppression in Machining Thin-Walled Components Based on Rigidity Optimization

Abstract:

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Precision machining of thin-walled complex components has been a serious challenge, and the machining errors are mainly due to cutting force which can induce tool-workpiece deformation and chatter vibration phenomenon. Based on the principle of stiffness optimization and material removal sequence optimization, rigidity of thin-walled component is greatly improved with non-uniform allowance distribution and spiral milling process techniques.

Info:

Periodical:

Advanced Materials Research (Volumes 97-101)

Edited by:

Zhengyi Jiang and Chunliang Zhang

Pages:

1947-1951

DOI:

10.4028/www.scientific.net/AMR.97-101.1947

Citation:

J. X. Ren et al., "Research on Chatter Suppression in Machining Thin-Walled Components Based on Rigidity Optimization", Advanced Materials Research, Vols. 97-101, pp. 1947-1951, 2010

Online since:

March 2010

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Price:

$35.00

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