Experimental investigation of rotary sinking electrochemical discharge milling with high-conductivity salt solution and non-pulsed direct current

Electrochemical milling is a modified technique of traditional electrochemical machining (ECM) that can be used to manufacture some helicopter transmission system parts. The use of rotary tools and an inner-jet electrolyte supply pattern can greatly improve the material removal rate (MRR) in a single pass. However, the feed speed is generally limited to minimize the tool wear. To increase the MRR, electrical discharge machining (EDM) is introduced into the electrochemical milling process. The tool rotation is employed to interrupt the discharge and the high-conductivity salt solution and non-pulsed direct current power supply are also adopted to increase ECM, eventually, a new machining method is proposed, which can be called rotary sinking electrochemical discharge milling (RSECD milling). The mechanism of it is explored in this study by analyzing the machined current, MRR, surface morphology, and tool wear at different applied voltages and feed speeds. Besides, the RSECD milling using the tool with a larger diameter is also conducted to further verify the effectiveness. In particular, the MRR can be increased by 742.5% when using the tool with a diameter of 20 mm at the applied voltage of 20 V.