Influence of dielectric flushing conditions during WEDM of TiNiCu shape memory alloys

Abstract

In this study, the effect of dielectric flushing pressure and direction on the machining responses of wire electrodischarge machining (WEDM) was investigated. Vacuum-melted titanium-nickel-copper (TiNiCu) shape memory alloy Ti50Ni25Cu25, homogenized at 500 degrees C, was used as the workpiece material. The flushing pressure was varied from 0.5 to 1.5 kg/cm(2) along with pulse-on time (T-on), pulse-off time (T-off), servo voltage and wire feed rate for Taguchi's L-27 experiments. Cutting rate (CR) and kerf width were selected as major WEDM responses, and at optimal CR, the effect of the flushing direction on surface characteristics was studied. It was found that the surface morphology depended mainly on process parameter values and was greatly affected by the flushing pressure. Also, the amount of molten and resolidified debris on samples, machined with the upward-direction flow, was much higher compared with that for the downward-direction flow.