论文信息 - Tool tip trajectories investigation and its influences in micromilling operation

Tool tip trajectories investigation and its influences in micromilling operation

In the micromilling operation, due to the special geometric features of the micromill, its tip trajectories at high speed rotation are obviously different from the common sense. In this work, a new method is proposed to measure the tool radial error motion and to calculate the tool tip vibration caused by the unbalances. After acquiring these data, a tool tip trajectories model is developed for a two-flute micromill. The model calculates the trajectories of the tool tip center and each flute exactly. Based on the model, the cutting force, chip thickness, and slot width (machining error) can be predicted. Meanwhile, the influences of the flute angle and the feed angle, which are very important input parameters to the model, are analyzed in detail. The analysis shows that one flute cutting condition often occurs in the micromilling. Through the experimental case studies, their results show the good agreement with the model's work.

Yadong Gong | G. Abba | Jinsheng Wang | J.F. Antoine

[1] Craig R. Friedrich,et al. Effect of workpiece springback on micromilling forces , 2004 .

[2] Yadong Gong,et al. Surface generation analysis in micro end-milling considering the influences of grain , 2008, ArXiv.

[3] G. Abba,et al. Electro-spindle design for high speed machining , 2006 .

[4] Sangkee Min,et al. Recent Advances in Mechanical Micromachining , 2006 .

[5] Simon S. Park,et al. Investigation of micro-cutting operations , 2006 .

[6] M. Weck,et al. Fabrication of microcomponents using ultraprecision machine tools , 1997 .

[7] Martin B.G. Jun,et al. Investigation of the Dynamics of Microend Milling—Part II: Model Validation and Interpretation , 2006 .

[8] Ibrahim N. Tansel,et al. Modeling micro-end-milling operations. Part II: tool run-out , 2000 .

[9] Chi-Wei Lin,et al. A new method to quantify radial error of a motorized end-milling cutter/spindle system at very high speed rotations , 2006 .

[10] Martin B.G. Jun,et al. Investigation of the Dynamics of Microend Milling—Part I: Model Development , 2006 .

[11] C. Arcona,et al. An Empirical Tool Force Model for Precision Machining , 1998 .