Electrochemical microprocessing assisted by Diode Pumped Solid State Nd:YAG pulse laser

• Autorzy: Wyszyński D. , Skoczypiec S. , Grabowski M. , Ruszaj A. , Lipiec P.
• Języki publikacji: EN

Abstrakty

EN

The use of hybrid machining methods for parts and devices production become more and more attractive nowadays. The paper presents results of modelling use of DPSS (Diode Pumped Solid State) pulse laser for intensification of electrochemical processes in machine part production. Application of DPSS pulse laser enables possibility to reach high level of localization in both machining and growth processes. Laser beam energy accelerates electrochemical processing, improves process localization and prevents other than the machined surface passivation. These conditions should improve electrochemical micro part precision of manufacturing by means of shape and dimensional accuracy in both machining and growth ECM processing.

Słowa kluczowe

EN

electrochemical machining; laser beam machining; micromachining

• Wydawca: Wydawnictwo Wrocławskiej Rady FSNT NOT
• Czasopismo: Journal of Machine Engineering
• Rocznik: 2012
• Tom: Vol. 12, No. 1
• Strony: 131--142
• Opis fizyczny: Bibliogr. 9 poz., rys.

Twórcy

autor

Wyszyński D.

• Cracow University of Technology, Faculty of Mechanical Engineering

autor

Skoczypiec S.

• Cracow University of Technology, Faculty of Mechanical Engineering

autor

Grabowski M.

• Cracow University of Technology, Faculty of Mechanical Engineering

autor

Ruszaj A.

• Cracow University of Technology, Faculty of Mechanical Engineering

autor

Lipiec P.

• Cracow University of Technology, Faculty of Mechanical Engineering

Bibliografia

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• [2] DE SILVA A. K. M., PAJAK P. T., HARRISON D. K., MCGEOUGH J. A., Modeling and Experimental Investigation of Laser Assisted Jet Electrochemical Machining.
• [3] RAJURKAR K. P., KOZAK J., 2001, Laser Assisted Electrochemical Machining, Transactions of the NAMRI, 29/421-427.
• [4] KOZAK J, RAJURKAR K. P., Hybrid machining process evaluation and development , University of Nebraska, Lincoln, U.S.A.
• [5] http://micro.magnet.fsu.edu/primer/java/polarizedlight/emwave/index.html
• [6] PAJAK P.T., DILVA A. K. M., HARRISON D. K., McGEOUGH J. A., 2006, Precision and efficiency of laser assisted jet electrochemical machining. Precision Engineering, 30/288–298.
• [7] http://www.emachineshop.com/machine-shop/Electrochemical-Machining/page72.html
• [8] DE SILVA A. K. M., PAJAK P. T., MCGEOUGH J. A., HARRISON D. K., 2011, Thermal effects in laser assisted jet electrochemical machining. CIRP Annals - Manufacturing Technology. 60/243–246.
• [9] VAKULENKO O. V., SEVERIN V. S., 2007, Calculation of the metal reflectivity with taking polarization into consideration. Semiconductor Physics, Quantum Electronics & Optoelectronics, 10/1/55-59.