A holistic approach for zero-defect micro-EDM milling

2013 IEEE International Symposium on Assembly and Manufacturing (ISAM) Pub Date : 2013-10-24 DOI:10.1109/ISAM.2013.6643533

J. Qian, Jun Wang, E. Ferraris, D. Reynaerts

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引用次数: 8

Abstract

Micro-EDM (μEDM) milling is a well-established micro-manufacturing technique, which offers three-dimensional and flexible machining capabilities for structuring electrically conductive difficult-to-machine materials. There has been considerable progress in micro-manufacturing capabilities by μEDM in recent years. Nevertheless there still exist a few challenges in terms of process accuracy and efficiency, and the achievable shape accuracy in micro-EDM milling is limited to 3-4 microns in vertical direction and 2-3 microns in plane. In order to reach zero-defect manufacturing with this micro-sparking technique, a holistic approach for precision micro-EDM milling is pursued at Leuven University. To improve the overall performance of the micro-EDM milling process, various upgrading has been carried out on a SARIX® machine, which includes monitoring and controlling of the stability of the sparking process (gap variation and energy distribution etc.), wear compensation of the tool-electrode, and on-machine metrology. Preliminary experiments have been carried out with promising results, and further system integration and application on industrial demonstrators are in progress.

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零缺陷微细电火花铣削的整体方法

微电火花加工(μEDM)铣削是一种成熟的微制造技术，它为导电难加工材料的结构提供了三维和灵活的加工能力。近年来，μEDM在微制造能力方面取得了长足的进步。然而，在加工精度和效率方面仍然存在一些挑战，微细电火花铣削可实现的形状精度限制在垂直方向上3-4微米，平面上2-3微米。为了用这种微火花技术实现零缺陷制造，鲁汶大学正在研究一种精密微电火花铣削的整体方法。为了提高微细电火花铣削工艺的整体性能，在SARIX®机床上进行了各种升级，包括对火花过程稳定性的监测和控制(间隙变化和能量分布等)，工具电极的磨损补偿以及机上计量。初步的实验已经取得了良好的结果，进一步的系统集成和工业示范应用正在进行中。

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2013 IEEE International Symposium on Assembly and Manufacturing (ISAM)

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