Effects of electrochemical machining on high-cycle fatigue of Inconel 718 blades

Blades made from Inconel 718 (IN718) are generally machined using electrochemical machining (ECM), and the high-cycle fatigue (HCF) of such blades significantly impacts the service life of aeroengines. In this study, modal analysis was performed to obtain the blade modal shape and stress distribution at first-order frequency, after which blades were machined at different current densities (9.5 A/cm2, 2 , 18.2 A/cm2, 2 , 34 A/cm2, 2 , 46.7 A/cm2, 2 , 61.2 A/cm2, 2 , 70.1 A/cm2) 2 ) and then subjected to detailed surface-integrity analysis and fatigue tests. No surface defects (e.g., inter- granular corrosion, recast layers) were observed, the microhardness was unchanged, and new residual stress was not found to be introduced to the machined surfaces. The machined surfaces were uneven and contained micro-pits, and high current density contributed to better surface quality. At a constant load of 520 MPa, the blade machined at 70.1 A/cm2 2 had the best fatigue life of 1.4x106. 6 . The blades fractured because of micro-pits, and as the surface quality of the blades improved, so did their fatigue performance. Therefore, the fatigue failure mechanism characterized in this work provides a reference for the HCF behavior of blades machined by ECM.