Abstract
Due to the high cost and severe wear of equipment under traditional process conditions, a large number of heat sources would be generated during processing, requiring cooling treatment. Computer simulation virtual reality (VR) technology can be used to solve the temperature control problem of traditional electrolytic cells in electrochemical machining. This paper studied the simulation model of VR technology in electrochemical machining temperature, with the aim of improving the authenticity and accuracy of simulation experiments. This article mainly used experimental methods and data comparison methods to compare experimental and simulated data, and obtained relevant results. Experimental data showed that the error in the radius of curvature of the outer wheel profile was 4.5%, while the error in the radius of curvature at the boss was 14.2%. Bubbles had a certain impact on the experimental accuracy of electrochemical machining.