Wire electrochemical machining with axial electrolyte flushing for titanium alloy 被引量：19

Wire electrochemical machining with axial electrolyte flushing for titanium alloy

导出

摘要 Titanium and its alloys have found very wide application in aerospace due to their excellent characteristics although their processing is still a challenge. Electrochemical machining is an important issue in the fabrication of titanium and titanium alloys. Wire electrochemical machining （WECM） is mainly used for workpiece cutting under the condition of different thickness plates. It has a great advantage over wire electro-discharge machining, which is the absence of heat-affected zone around the cutting area. Moreover, the wire electrode in WECM could be used repetitively because it is not worn out. Thus, much attention has been paid to WECM. The effective way of removing electrolysis products is of importance to WECM. In this paper, the axial electrolyte flushing is presented to WECM for removing electrolysis products and renewing electrolyte. The Taguchi experiment is conducted to optimize the machining parameters, such as wire feedrate, machining voltage, electrolyte concentration, etc. Experimental results show that WECM with axial electrolyte flushing is a promising issue in the fabrication of titanium alloy （TC1）. The feasibility of multi-wire electrochemical machining is also demonstrated to improve the machining productivity of WECM. Titanium and its alloys have found very wide application in aerospace due to their excellent characteristics although their processing is still a challenge. Electrochemical machining is an important issue in the fabrication of titanium and titanium alloys. Wire electrochemical machining （WECM） is mainly used for workpiece cutting under the condition of different thickness plates. It has a great advantage over wire electro-discharge machining, which is the absence of heat-affected zone around the cutting area. Moreover, the wire electrode in WECM could be used repetitively because it is not worn out. Thus, much attention has been paid to WECM. The effective way of removing electrolysis products is of importance to WECM. In this paper, the axial electrolyte flushing is presented to WECM for removing electrolysis products and renewing electrolyte. The Taguchi experiment is conducted to optimize the machining parameters, such as wire feedrate, machining voltage, electrolyte concentration, etc. Experimental results show that WECM with axial electrolyte flushing is a promising issue in the fabrication of titanium alloy （TC1）. The feasibility of multi-wire electrochemical machining is also demonstrated to improve the machining productivity of WECM.

作者 Qu Ningsong Fang Xiaolong Li Wei Zeng Yongbin Zhu Di

机构地区 College of Mechanical and Electrical Engineering

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2013年第1期224-229,共6页 中国航空学报（英文版）

基金 financial support from the National Natural Science Foundation of China (No. 51005120) Jiangsu Natural Science Foundation (Nos. BK2010508 and BE2010193)

关键词 Axial electrolyte flushing Electro machining Electrochemical machining Titanium alloy Wire electrochemical machining Axial electrolyte flushing Electro machining Electrochemical machining Titanium alloy Wire electrochemical machining

分类号 V261 [航空宇航科学与技术—航空宇航制造工程]

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