机械加工
材料科学
电化学加工
电极
电解质
超声波传感器
复合材料
陶瓷
振动
腐蚀
阴极保护
冶金
电化学
声学
化学
物理化学
物理
作者
Zhenglan Wang,Cheng Xu
标识
DOI:10.1109/iaeac47372.2019.8998059
摘要
Ultrasonic vibration technology had been used in the micro holes electrochemical machining (ECM) to exclude processed products within the gap, but the impact of ultrasonic cavitation influenced the insulating layers on the electrode surface and accelerated its destruction. In order to improve the life of the sidewall insulated electrode, the double insulating layer consisting of ceramic insulating film and electrophoretic paint film was formed on the surface of the fine titanium electrode by using the micro-arc oxidation and cathodic electrophoresis. The effects of ultrasonic vibration power, electrolyte concentration and machining voltage on the micro hole machining accuracy with the sidewall-insulated electrode was analyzed. The experimental results showed that the double insulation layers displayed a strong durability in ultrasonic vibration assisted micro holes electrochemical machining. When the ultrasonic vibration power exceeded a certain value, the processing was able to stabilize. Afterwards, the machining accuracy changed little with the increase the power. It is necessary to reduce the electrolyte concentration and the machining voltage, thereby reducing the stray corrosion, for ensuring the shape accuracy of the hole in stable machining.
科研通智能强力驱动
Strongly Powered by AbleSci AI