Abstract
Over the years many authors research on Aluminum Metal Matrix Composites reinforced with various chemical particulates. Now a day's researchers found industrial waste as reinforcement which reduces the industrialized expenditure of products as well as reduces the pollution of the environment. This also increases the properties of material. Due to this, day by day the application of industrial waste reinforced, Aluminum based Metal Matrix Composites increasing. In this review paper, the industrial waste like fly ash, red mud, cenospheres ash are considered as reinforcement. Many researchers have cited the effect of industrial waste on Mechanical and tribological analysis of metal matrix composite based on Aluminum alloy. But very few researchers have worked on Machinability analysis of industrial waste reinforced metal matrix composite. Therefore, this paper represents a brief literature review on the machinability analysis of industrial waste reinforced metal matrix composite. In this survey the impact of machining parameters on surface roughness, cutting tool life, tool wear, power consumption are investigated. From the literature it is found that due to an increase in cutting speed and feed there is a decrease in surface roughness and the tool life decreases due to an increase in weight % of reinforcement. But power consumption increments because of increment in cutting rate and feed rate. In this survey it is also noticed that Aluminum Metal Matrix Composites reinforced with industrial waste applicable automotive, aerospace, and construction industries.
Published Version
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