论文信息 - Design and experimental results of a tunable vibration turning device operating at ultrasonic frequencies

Design and experimental results of a tunable vibration turning device operating at ultrasonic frequencies

The development of a tunable ultrasonic vibration-assisted diamond-turning tool is described. The resonance operation method, which formerly served to achieve mechanical motion at ultrasonic frequencies, is now replaced by a newly developed pulse driving technique. The prototype tools allow for vibration frequencies from dc up to 40 kHz and vibration amplitudes from 0 to 10 μm. This paper reviews the design of the new tool system and summarizes the experimental results from diamond turning steel work materials. As in other studies on vibration-assisted machining, the results show that the surface turned with a vibrating tool contains scalloped geometric features superimposed on the tool marks left from conventional turning, resulting in a lower total surface roughness. Tool wear comparisons document advantages from the added vibration, and variations in the carbon content in the resulting chips were also examined.

James F. Cuttino | Jerald L. Overcash | J. L. Overcash | J. Cuttino

[1] Christopher J. Evans,et al. Chemical aspects of tool wear in single point diamond turning , 1996 .

[2] E. B. Magrab,et al. Design and testing of a fast tool servo for diamond turning , 1985 .

[3] C. Evans,et al. Cryogenic Diamond Turning of Stainless Steel , 1991 .

[4] J. M. Casstevens,et al. Diamond turning of steel in carbon-saturated atmospheres , 1983 .

[5] Eiji Shamoto,et al. Ultraprecision diamond turning of stainless steel by applying ultrasonic vibration , 1991 .

[6] Eiji Shamoto,et al. Ultrasonic elliptical vibration cutting , 1995 .

[7] Stuart T. Smith,et al. Flexures: Elements of Elastic Mechanisms , 2000 .

[8] W. L. Green,et al. Machine-tool control system for turning nonaxisymmetric surfaces , 1979 .

[9] Chris Evans,et al. Precision engineering : an evolutionary view , 1989 .