Frictionally damped tool holder for long projection cutting tools

被引：4

作者：

Denkena B. ^{[1
]}

Bergmann B. ^{[1
]}

Teige C. ^{[1
]}

机构：

[1] Institute of Production Engineering and Machine Tools, Leibniz Universität Hannover, Hannover

来源：

Production Engineering | 2018年 / 12卷 / 6期

关键词：

Damping; Friction; Process stability; Tool holder;

D O I：

10.1007/s11740-018-0847-7

中图分类号：

学科分类号：

摘要：

The machining of complex geometries and deep cavities requires the use of long projecting tool holders. However, due to their high length-to-diameter ratio, these tool holders have a high degree of static and dynamic compliance. High dynamic compliance reduces process stability and thus productivity. A new approach to lessen this is to increase the damping of long projecting tool holders by using friction dampers integrated into the tool holder shaft. The mathematical description and experimental testing of large friction-damped tool holders are the subject of this paper. With the aid of experimental modal analysis and cutting tests, the dynamic compliance and maximal cutting depth were determined. Due to the integration of friction segments in the tool holder shaft, the maximal depth of cut could be increased about 75% compared to a reference tool holder with the same diameter and length configuration. © 2018, German Academic Society for Production Engineering (WGP).

引用

页码：715 / 722

页数：7

共 16 条

[1] Munoa J., Beudaert X., Dombovari Z., Altintas Y., Budak E., Brecher C., Stepan G., Chatter suppression techniques in metal cutting, CIRP Ann Manuf Technol, 65, pp. 785-808, (2016)
[2] Sorby K., Development and optimization of vibration-damped tool holders for high length-to-diameter boring operations, High Speed Mach, 21, pp. 51-58, (2016)
[3] Weck M., Krell M., Hennes N., Spindle and toolsystems with high damping, CIRP Ann, 48, pp. 297-302, (1999)
[4] Martins da Silva M., Venter S.G., Varonto P.S., Coelho R.T., Experimental results on chatter reduction in turning through embedded piezoelectric material and passive shunt circuits, Mechatronics, 29, pp. 78-85, (2015)
[5] Matsubara A., Maeda M., Yamaji I., Vibration suppression of boring bar by piezoelectric actuators and LR circuit, CIRP Ann, 63, pp. 373-376, (2014)
[6] Yang Y., Xu D., Liu Q., Milling vibration attenuation by eddy current damping, Int J Adv Manuf Technol, 81, pp. 445-454, (2015)
[7] Pisal Alka Y., Jangid R.S., Dynamic response of structure with tuned mass friction damper, Int J Adv Struct Eng, 8, pp. 363-377, (2016)
[8] Den Hartog J.P., Mechanical vibrations, (1934)
[9] Moneto I., Analytical solutions of three-layer beams with interlayer slip and step wise linear interface law, Compos Struct, 120, pp. 543-551, (2015)
[10] Sedighi H., Shirazi K., Tahan K.N., Stick-slip analysis in vibrating two-layer beams with frictional interface, Latin Am J of Solids Struct, 10, pp. 1025-1042, (2013)

← 1 2 →