Study on Micro Electrochemical Machining at Micro to Meso-scale

Wansheng Zhao, Xiaohai Li, Zhenlong Wang
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引用次数: 15

Abstract

Electrochemical machining (ECM) is an anodic dissolution process of metal as anode ion by ion, and micro-ECM is a promising micro machining method at micro to mesoscale. Thus, a micro-ECM setup was developed to fabricate micro parts and explore the feasibility of micro-ECM at micro to mesoscale, including the design of high-frequency micro-energy pulse power supply. By using the detection unit of machining state and optical encoder, a closed loop control system for micro-ECM was developed. Under low concentration of passivating electrolyte, low machining voltage and high-frequency short-pulse current, the machining gap can be reduced to about 10 mum. A deep micro-hole about 100 mum in diameter was drilled by edge-cut electrode on stainless steel with 750 mum thickness. The process of NC micro-EC milling is proposed, and microstructures with high-aspect ratio on stainless steel were fabricated by micro-EC milling, such as profiled micro-hole, micro spiral beam and micro array square columns
微中观微细电化学加工研究
电化学加工(ECM)是一种以阳极离子为阳极的金属的阳极溶解过程,微电解加工是一种很有前途的微到中尺度的微加工方法。为此,开发了一种微型电解加工装置,用于制造微型零件,并探索了微型电解加工在微到中尺度上的可行性,包括高频微能量脉冲电源的设计。采用加工状态检测单元和光学编码器,研制了微细电解加工闭环控制系统。在低浓度钝化电解液、低加工电压和高频短脉冲电流的作用下,加工间隙可减小到10 μ m左右。在厚度为750 μ m的不锈钢上,用边切电极钻出直径约为100 μ m的深微孔。提出了数控微电火花铣削工艺,利用微电火花铣削技术在不锈钢表面加工出了高纵横比的异形微孔、微螺旋梁和微阵列方柱等微结构
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