Experimental study and optimization for optimal setting of machining parameters for turning of al hmmc

Abstract

Aluminum Hybrid Metal Matrix Composite (Al-HMMC) is one of the newlineadvanced materials with specific and specialized industrial applications. They newlineare used widely in automobile industries such as bearing sleeves, piston, etc. newlineOne of the primary processes of manufacturing these components is newlineconventional machining. Machining parametric table offered by the newlinemanufacturer is more essential and does not provide recently developed newlinematerials. Hence the parameters for newer materials need to be optimized. newlineReinforcement enhances the stiffness, strength as well as the capacity for newlinetemperature resistance.It also lessens the density of MMC. To attain these properties, the choice newlinerelies on the kind of reinforcement. Due to the addition of reinforcements like newlinesilicon carbide (SiC) and graphite which are harder as well as stiffer than the newlinematrix material, machining turns out to be most challenging when compared newlineto typical conventional materials. A more significant majority of studies newlinerelated to the machining of Al-MMCs directed attention to turning off the newlinematerials. Recent researches indicate that particulate reinforced Aluminum newlineHybrid Metal Matrix Composites (Al-HMMC) stand as one of the difficult to newlinemachining of the materials. Hence in this work, experimental studies were newlinecarried out for the optimal setting of machining parameters on the turning of newlineAl HMMC. Henceforth, investigations that various parameters of Al HMMC newlineare remarkably required. So that in this research work, Al 7075 based hybrid newlinemetal matrix composite is fabricated and tested conclusively. Then it is newlineanalyzed through the Taguchi method to study the various machining newlineparameters newline newline