Application of response surface method on machining of Al–SiC nano-composites

Abstract

The newly fabricated metal matrix nano-composite (MMNC) of Al 7075 reinforced with 1.5wt% SiC nano-particles was prepared by a novel ultrasonic cavitation method. The high resolution scanning electron micrograph (SEM) and field emission scanning electron micrograph (FESEM) shows uniform distribution and good dispersion of the SiC nanoparticles within the aluminum metal matrix. Electrical discharge machining (EDM) was employed to machine MMNC with copper electrode by adopting face centered central composite design of response surface methodology. Analysis of variance was applied to investigate the influence of process parameters and their interactions. Further a mathematical model has been formulated in order to estimate the machining characteristics. It has been observed that pulse current was found to be the most important factor affecting all the three output parameters such as material removal rate (MRR), electrode wear rate (EWR) and surface roughness (SR). The optimum parameter of combination setting has been identified for the MMNC are voltage 50.00V, pulse current 8.00A, Pulse on time 8.00μs and pulse off time 9.00μs. Finally the parameters were optimized for maximizing MRR, minimizing EWR and SR using desirability function approach.