论文信息 - Monitoring life of diamond tool in ultra-precision machining

Monitoring life of diamond tool in ultra-precision machining

A method has been developed to monitor the tool life through estimating the condition of the tool nose radius without removing the tools during the machining process. This is critical in the single-point diamond turning (SPDT) of precision optical parts like microlens arrays and compound eyes in which complex and free-form profiles are to be generated and in which the tool cannot be reset. Such conditions are determined based on measurement of quasi-circular channels machined by single-pass grooving. For SPDT, when using a new tool, the quasi-circular channels are expected to be reasonably circular when they remain momentarily engaged with the tool. In this paper, a model is proposed to assist in reconstructing the profile of the engaged circular arcs of the channels before re-bouncing. Based on the model, the bottom of the circular arc is flattened and the edges of channel stretched, while the cross-sectional area of the channel remains unchanged even after re-bouncing. Experimental work on SPDT of a 6061 aluminum alloy revealed that these two assumptions hold well at depths of cut between 1 and 1.5 μm.

W. B. Lee | C. Y. Chan | L. H. Li | H. C. Wong

[1] Daniel Brissaud,et al. A More Realistic Cutting Force Model at Uncut Chip Thickness Close to Zero , 2007 .

[2] Suet To,et al. Finite element modelling of shear angle and cutting force variation induced by material anisotropy in ultra-precision diamond turning , 2013 .

[3] Wing Bun Lee,et al. A criterion for the prediction of shear band angles in F.C.C. metals , 1991 .

[4] Fengzhou Fang,et al. Manufacturing and measurement of freeform optics , 2013 .

[5] Eiji Shamoto,et al. Fundamental investigation of ultra-precision ductile machining of tungsten carbide by applying elliptical vibration cutting with single crystal diamond , 2014 .

[6] Xindu Chen,et al. A study of single kinematic errors accurate fitting for ultra-precision micro v-groove machine tools , 2015 .

[7] Martin B.G. Jun,et al. Modeling of minimum uncut chip thickness in micro machining of aluminum , 2012 .

[8] W. Lee. Prediction of microcutting force variation in ultra-precision machining , 1990 .

[9] Chi Fai Cheung,et al. Elastic strain induced shear bands in the microcutting process , 2010 .

[10] F. Fang,et al. Decrease of FIB-induced lateral damage for diamond tool used in nano cutting , 2014 .

[11] A COMPARISON OF THE SACH AND TAYLOR MODELS FOR THE PREDICTION OF THE PLASTIC STRAIN RATIO OF SHEET METALS , 1993 .