Article Details

A Review on Processing, Characterization and Erosion Wear Response of Filled Metal Alloy Composites | Original Article

Anurag Ѕhrivaѕtava1 Rajiv R Lal2 Brijesh Gangil3 in Anusandhan (RNTUJ-AN) | Multidisciplinary Academic Research

ABSTRACT:

ABSTRACT

Metal matrix composites they were mainly included in structural engineering components where only a typical failure mode becomes solid particle erosion. That research throughout this article focuses also on manufacturing and classification of silicon carbide (SiC) reinforced metal matrix compounds (MMCs) at various weight percentages ranging from 0 to 9 percent by weight in phase 3. Also reported the% of each and their response to erosion wear of the solid particles. A simple and widely used liquid metallurgy technique called stir casting technique is used to produce these composite materials. The erosion tests are carried out according to the experimental design based on the Taguchi L16 orthogonal matrix. It describes the primarily important factors that control that wear rate. The findings suggest how this compound's erosion wear rate was most determined than other influences even by impact rate and fill material, meanwhile. This also illustrates the strong filling properties of both the SiC particles because as wear rate declines throughout the matrix material with increasing filler content.