Formation mechanism and quality control technology for abrasive flow precision polishing vortex: large eddy simulation

Abrasive flow polishing technology (AFPT) is a novel method of precision machining for improving the surface precision of the workpiece, where the micro-cutting process can be achieved for the finishing process of the inner surface of the workpiece through its contact with an abrasive. In order to investigate the vortex formation mechanism of the baffle servo valve nozzle of abrasive flow precision polishing (AFPP), the large eddy simulation (LES) method has been employed to analyze the flow path of abrasive flow and the effect of the vortex on the nozzle wall surface. To clarify the precise polishing action of abrasive flow, the impact of cutting behavior of abrasive particles is carried out with the vortex of the nozzle wall surface. The quality control method of abrasive flow precision polishing (AFPP) baffles servo valve nozzle is revealed from the formation mechanism of different cross-section vortices. It is concluded that the grinding speed of the abrasive flow has an important influence on the polishing quality of the abrasive flow. The higher the grinding speed, the better the precision of the abrasive flow. Finally, our results led us to conclude that the abrasive flow precision polishing technology (AFPPT) can effectively improve the surface quality of the nozzle orifice. Moreover, it can improve the abrasive flow grinding speed which can effectively improve the surface accuracy of the workpiece for the ideal surface quality.