论文信息 - Improving waviness in ultra precision turning by optimizing the dynamic behavior of a spindle with magnetic bearings

Improving waviness in ultra precision turning by optimizing the dynamic behavior of a spindle with magnetic bearings

The aim of this paper is to present an approach of improvement of the surface flatness in diamond turning with a spindle on magnetic bearings. The procedure followed to attenuate the defect involves two processes of dynamic compensation of the spindle parasitic movements: (i) the classical dynamic balancing of mainly the tilting motion; (ii) the more specific active compensation of the non-linear components of the spindle movement by minimization of the harmonics of the spindle displacements synchronous with the frequency of rotation. Surface analysis at each step shows that the evolution of the surface figure is closely correlated, at a scale of some nanometers, with the dynamic movements of the spindle, and may consequently be significantly attenuated with an active compensation.

[1] Ho-Sang Kim,et al. Feed-forward control of fast tool servo for real-time correction of spindle error in diamond turning of flat surfaces , 2003 .

[2] Philippe Revel,et al. X Ray diffraction microstructure analysis of ultra precision machined material. , 2002 .

[3] Chi Fai Cheung,et al. Modelling and simulation of surface topography in ultra-precision diamond turning , 2000 .

[4] Thomas R. Kurfess,et al. Implementation of a fast tool servo with repetitive control for diamond turning , 2003 .

[5] Shuliang Dong,et al. Effect of diamond tool sharpness on minimum cutting thickness and cutting surface integrity in ultraprecision machining , 1996 .

[6] Danping Wang,et al. Conception et réalisation d'un minicapteur de déplacement à fibres optiques de résolution nanométrique , 1999 .