A Review and Analysis of the Machining Process Involving Nickel-Based Super Alloy

Abstract

This article involves a review and analysis of the current study and progress work in the machining of the nickel-based super alloy. The review focuses on producing a perception into the machining of nickel-based super alloy and points out higher capability for further explorations and alterations in the field of nickel-based super alloy. Machining is one of the most crucial and vastly used manufacturing processes. Of late, due to entanglement and unreliability of the machining processes, soft computing techniques are being deployed to create physics-based models for forecasting the performance of the machining processes and optimizing them. The proposed hypothesized work is aimed at the investigation of the relationship between input cutting parameters and tool geometry parameters like feed per tooth, cutting speed, radial depth of cut, and various key aspects of surface integrity, such as residual stress, micro-hardness, and surface roughness, while end milling of Inconel 625, nickel-based super alloy.