Paper Title
Grinding Performance and Its Proportion on Process Performance on Superalloys (Inconel 718 or Inconel 625) and H 13 Steel

Abstract
Nickel-based superalloys, counting Inconel 718, Inconel 625, and H13 steel are increasingly used in greatperformance applications, including aerospace, marine, and oil along with gas industries, owing to their great mechanical strength, resistance to hot corrosion, and ability to withstand extreme temperatures (temp.s). However, these materials present noteworthy hurdles in machining owing to their low thermal conductivity (TC)along with tendency to produce excessive heat during grinding, which can degrade surface standard and tool life. This investigation aims to probe the grinding efficiency of Inconel 718, Inconel 625, and H13 steel, focusing on the influence of key grinding parameters (e.g., wheel speed, and cut depth, and feed rate, and lubrication) on surface integrity along with grinding efficiency. The research will assess specific grinding energy (GE), surface finish (SF), dimensional accuracy, and tool wear, with an emphasis on optimizing these parameters to enhance process efficiency while minimizing thermal damage and improving product standard. The study seeks to bridge the gap between the difficulties of grinding difficult-to-machine materials and the need for cost-effective, efficient grinding solutions in industries requiring great precision. The findings aim to provide valuable insights for selecting optimal grinding conditions and contribute to the development of more sustainable grinding practices for nickel-based superalloys. Keywords - Grinding; superalloys; Inconel 718, Inconel 625, and H13 steel; surface finish;grinding forces