High performance cutting for ultra-precision machining

被引：1

作者：

Brinksmeier, Ekkard ^{[1
]}

Riemer, Oltmann ^{[1
]}

Schönemann, Lars ^{[1
]}

机构：

[1] LFM Laboratory for Precision Machining, MAPEX Center for Materials and Processes, Badgasteiner Str. 2, Bremen

来源：

International Journal of Nanomanufacturing | 2015年 / 11卷 / 5-6期

关键词：

Diamond milling; High performance cutting; High speed air bearing spindle; HPC; Precision balancing; Thermally driven tool holder; Ultra-precision machining;

D O I：

10.1504/IJNM.2015.075228

中图分类号：

学科分类号：

摘要：

This keynote paper will present new approaches for high performance ultra-precision machining that are developed to overcome typical shortcomings of the currently applied machining process. Firstly, ultra-precision machining is compared to conventional machining and approaches commonly used in the latter one are evaluated regarding their applicability for ultra-precision machining. Secondly, results for applying high speed spindles will be demonstrated and their effect on the acting process forces will be discussed. The use of high speed spindles in ultra-precision machining, however, increases the need for faster and more precise balancing procedures. Here, new concepts for expanding the sensitivity of unbalance measurements by deliberately reducing the stiffness of the spindle mounting are presented. Copyright © 2015 Inderscience Enterprises Ltd.

引用

页码：245 / 260

页数：15

共 42 条

[31]

Neugebauer R., Bouzakis K.-D., Denkena B., Klocke F., Sterzing A., Tekkaya A.E., Wertheim R., Velocity effects in metal forming and machining processes, CIRP Ann. Manuf. Techn., 60, 2, pp. 627-650, (2011)

[32]

Osmer J., Riemer O., Brinksmeier E., Rosochowski A., Olejnik L., Richert M., Diamond turning of ultrafine grained aluminium alloys, EUSPEN Topical Meeting: Thermal Effects in Precision Systems, pp. 316-319, (2007)

[33]

Paul E., Evans C.J., Mangamelli A., McGlauflin M.L., Polvani R.S., Chemical aspects of tool wear in single point diamond turning, Prec. Eng., 18, 1, pp. 4-19, (1996)

[34]

Rakuff S., Cuttino J.F., Design and testing of a long-range, precision fast tool servo system for diamond turning, Prec. Eng., 33, 1, pp. 18-25, (2009)

[35]

Riemer O., A review on machining of micro-structured optical molds, Key Eng. Mater., 364-366, pp. 13-18, (2008)

[36]

Scheiding S., Yi A.Y., Gebhardt A., Li L., Risse S., Eberhardt R., Tunnermann A., Free-form manufacturing of microoptical lens array on a curved substrate, ASPE 2011 Spring Topical Meeting Structured and Freeform Surfaces, ASPE, pp. 19-23, (2011)

[37]

Schonemann L., Mejia P., Riemer O., Brinksmeier E., Design and evaluation of a thermal actuator for ultra-precision machining, LAMDAMAP 11th International Conference, EUSPEN, pp. 320-330, (2015)

[38]

Schulz H., Moriwaki T., High-speed machining, CIRP Ann. Manuf. Techn., 41, 2, pp. 637-643, (1992)

[39]

Shore P., Cunningham C., DeBra D., Evans C., Hough J., Gilmozzi R., Kunzmann H., Morantz P., Tonnellier X., Precision engineering for astronomy and gravity science, CIRP Ann. Manuf. Techn., 59, 2, pp. 694-716, (2010)

[40]

Takeuchi Y., Suzukawa H., Kawai T., Sakaida Y., Creation of ultra-precision microstructures with high aspect ratios, CIRP Ann. Manuf. Techn., 55, 1, pp. 107-110, (2006)

← 1 2 3 4 5 →