Parametric modeling and optimization for wire electrical discharge machining of Inconel 718 using response surface methodology

“…Due to the retention of their mechanical properties at high-temperature, these superalloys are used in aero space industry and other applications (Thakur et al, 2014). Most of the studies focused on Inconel 718 with respect to different cutting conditions (Aggarwal et al, 2015). However, there are very few reports on machining of Inconel 825 (Thakur et al, 2014).…”

“…Recent developments in mechanical industry have increased the demand of superalloys because of their high-strength, temperature, corrosion and oxidation resistant properties (Aggarwal et al, 2015). Superalloys retain their mechanical properties at high temperature which make them useful in marine, space, aero-engine components and other applications (AKCA and Gursel, 2013).…”

“…These non-conventional machining methods satisfy the production and quality requirements with improved precision and accuracy. The machining performance is measured by using multi-objective optimization technique in terms of MRR, SR and WWR (Aggarwal et al, 2015). It is reported by various studies that for obtaining optimum machining characteristics, selection of desired machining parameters is very important (Somashekhar et al, 2010;Goswami and Kumar, 2014).…”

“…In this study, wire cut EDM parameters are optimized with consideration to multiple performance characteristics such as material removal or cutting rate (MRR), wire wear ratio (WWR) and surface roughness (SR). Pulse-on time (Ton), pulse-off time (Toff), peak current (IP), gap voltage (SV), wire feed rate (WF) and wire tension (WT) are the parameters that influences the machining (Aggarwal et al, 2015).…”

Optimization of process parameters for WEDM of Inconel 825 using grey relational analysis

“…Due to the retention of their mechanical properties at high-temperature, these superalloys are used in aero space industry and other applications (Thakur et al, 2014). Most of the studies focused on Inconel 718 with respect to different cutting conditions (Aggarwal et al, 2015). However, there are very few reports on machining of Inconel 825 (Thakur et al, 2014).…”

“…Recent developments in mechanical industry have increased the demand of superalloys because of their high-strength, temperature, corrosion and oxidation resistant properties (Aggarwal et al, 2015). Superalloys retain their mechanical properties at high temperature which make them useful in marine, space, aero-engine components and other applications (AKCA and Gursel, 2013).…”

“…These non-conventional machining methods satisfy the production and quality requirements with improved precision and accuracy. The machining performance is measured by using multi-objective optimization technique in terms of MRR, SR and WWR (Aggarwal et al, 2015). It is reported by various studies that for obtaining optimum machining characteristics, selection of desired machining parameters is very important (Somashekhar et al, 2010;Goswami and Kumar, 2014).…”

“…In this study, wire cut EDM parameters are optimized with consideration to multiple performance characteristics such as material removal or cutting rate (MRR), wire wear ratio (WWR) and surface roughness (SR). Pulse-on time (Ton), pulse-off time (Toff), peak current (IP), gap voltage (SV), wire feed rate (WF) and wire tension (WT) are the parameters that influences the machining (Aggarwal et al, 2015).…”

Optimization of process parameters for WEDM of Inconel 825 using grey relational analysis

“…Rao and Krishna [14] applied principal component analysis (PCA), coupled with Taguchi's robust theory for simultaneous optimization of correlated multiple responses of wire electrical discharge machining (WEDM) process for machining SiC P reinforced ZC63 metal matrix composites (MMCs). Aggarwal et al, [15] formulated an empirical model for predicting cutting rate and surface roughness of Inconel 718 material machined by wire-EDM process with the help of response surface methodology (RSM).…”

Experimental Study and Development of an Empirical Model for Sr and MRR in CNC Wedm of Az31b Magnesium Alloy Based MMNC

Atomic Force Microscopic Characterization of Wire Electrical Discharge Machined Samples