Open AccessTool Wear Rate on Inconel 718 using W-Powder Mixed Electric Discharge Drilling
Author(s) -
J. Jeevamalar,
R. Vimalraj,
M. Vigneshwaran,
G. Vignesh
Publication year - 2020
Publication title -
international journal of innovative technology and exploring engineering
Language(s) - English
Resource type - Journals
ISSN - 2278-3075
DOI - 10.35940/ijitee.e2823.039520
Subject(s) - inconel , electrical discharge machining , materials science , surface roughness , drilling , electric discharge , machining , metallurgy , tungsten carbide , tungsten , superalloy , liquid dielectric , composite material , mechanical engineering , alloy , dielectric , electrode , optoelectronics , engineering , chemistry
Electrical Discharge Drilling (EDD) is an unconventional manufacturing process with large industrial performances. Addition of powder particles in dielectric changes some process variables and machines hard and hard to cut materials with greater surface finish high tolerance and accuracy to accomplish a superior material removal rate with a reduced Tool Wear Rate (TWR). This research work explores the performance of TWR on Tungsten Powder Mixed Electrical Discharge Drilling (W-PMEDD) on Inconel 718 super alloy. The input machining parameters of Peak Current (Ip) Pulse on (Ton) and Pulse off time (Toff) and the output measure of TWR were examined by Response Surface Method (RSM). Analysis of Variance was used to evaluate the effect of the machining parameters and it is concluded that Ip, Ton and Toff are the most significant parameters while machining of W-PMEDD on Inconel 718.