Active alignment chuck for ultra-precision machining

Daghini, L.; Archenti, A.; Rashid, A.; Nicolescu, C. M.

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Tytuł artykułu

Active alignment chuck for ultra-precision machining

Autorzy

Daghini L. , Archenti A. , Rashid A. , Nicolescu C. M.

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Abstrakty

Ultraprecision (UP) components have become common in everyday life products such as mobile phones or compact high resolution digital cameras. Thus the need of producing such components with high accuracy and low production cost. UP machine tools are capable of extremely high accuracy in tool positioning but still today the workpiece is positioned by hand, hence the high production cost of UP components. A fully automated chain of production has been developed within the EU-IP project "Production 4 micro". This paper describes the active alignment chuck for workholding in UP machining. The chuck has been provided with a high damping interface (HDI) and to evaluate its efficiency the chuck has undergone an experimenta modal analysis (EMA) as well as machining tests. The chosen operation was grooving by fly cutting using a diamond tool. The EMA showed that the HDI was effective for those modes where there was relative displacement between one side and the other of the HDI. This result was confirmed by the machining tests as well. The HDI resulted being effective in damping high frequency modes (around 4 - 5 kHz), hence one expected benefit would be a longer tool life.

Słowa kluczowe

ultraprecision machining high damping interface active alignment

Wydawca

Wydawnictwo Wrocławskiej Rady FSNT NOT

Czasopismo

Journal of Machine Engineering

Rocznik

2011

Tom

Vol. 11, No. 4

Strony

39--48

Opis fizyczny

Bibliogr. 9 poz., tab., rys.

Twórcy

autor

Daghini L.

Royal Institute of Technology, KTH Production Engineering, Stockholm, Sweden

autor

Archenti A.

Royal Institute of Technology, KTH Production Engineering, Stockholm, Sweden

autor

Rashid A.

Royal Institute of Technology, KTH Production Engineering, Stockholm, Sweden

autor

Nicolescu C. M.

Royal Institute of Technology, KTH Production Engineering, Stockholm, Sweden

Bibliografia

[1] BRECHER C., F. NIEHAUS M. WEINZIERL et al. 2009. Microscale Mass Production. MICROmanufacturing, 44 - 47.
[2] DAGHINI L., ARCHENTI A., NICOLESCU C. M., 2009, Design, Implementation and Analysis of Composite Material Dampers for Turning Operations. In: ICME 2009: International Conference on Mechanical Engineering. Tokyo, 613-620.
[3] RIVIN E I., AGAPIOU J., BRECHER C., et al. 2000, Tooling Structure: Interface between Cutting Edge and Machine Tool. In: CIRP Annals - Manufacturing Technology, 591-634.
[4] DAGHINI L., ARCHENTI A., NICOLESCU C. M., 2010, Design and Dynamic characterization of Composite Material Dampers for Parting-off Tools. Journal of Machine Engineering. 10/2/57-70.
[5] DAGHINI L., ARCHENTI A., NICOLESCU C. M,. 2010, Design, Implementation and Analysis of Composite Material Dampers for Turning Operations. International Journal of Mechanical Systems Science and Engineering. 2/2/65-72.
[6] RASHID A., 2005, On passive and active control of machinig system dynamics. Stockholm: Royal Institute of Technology, KTH Production Engineering.
[7] BRECHER C., WEINZIERL M., 2009, New approaches for an automizes production in ultra-precision machining. The International Journal of Advanced Manufacturing Technology. 47/1/47 - 52.
[8] BERGLUND A., 2008, Characterization of Factors Interacting in CGI Machining. Stockholm: US-AB.
[9] MEHTA N., K., PANDEY P. C., CHAKRAVARTI G., 1983, An Investigation of Tool Wear and the Vibration Spectrum in Milling. Wear, 219-234.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-a34cbcc2-3c08-45c5-aaa6-d12bb11cbe75