期刊
PROCESSES
卷 9, 期 9, 页码 -出版社
MDPI
DOI: 10.3390/pr9091615
关键词
ultrasonic-assisted; electrochemical machining; micro-hole array; cavitation
This paper discusses the use of an ultrasonic vibration-integrated array electrode for micro-hole drilling in 301 stainless steel. Experimental results show that with the optimal parameter combination, such drilling can achieve a minimum average diagonal length and a smaller amount of variation in diagonal length, improving the inlet and outlet taper angle of micro-holes.
This paper uses an ultrasonic vibration-integrated array electrode for 301 stainless steel micro-hole drilling. The influence of machining parameters such as ultrasonic vibration amplitude, working voltage, pulse-off time and electrode feed rate on different processing characteristics are discussed. The experimental results show that the ultrasonic-assisted electrode array vibrating generates a periodic pressure difference for the electrolyte. The periodic pressure difference forms a pumping effect and a cavitation effect. The two effects can effectively renew the electrolyte in the machining gap and discharge the reaction product, gas and reaction heat from the gap. Machining speed can be increased by over 500% when the ultrasonic amplitude increases from 0.94 mu m to 2.87 mu m. Micro-hole drilling with the optimum experimental parameter combination of ultrasonic amplitude 2.87 mu m, working voltage 11 V, pulse-off time 50 mu s and electrode feed rate 5 mu m/s can result in a minimum average diagonal length and a smaller amount of variation in diagonal length. It also improves the inlet and outlet taper angle of micro-holes.
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