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Due to their low weight, high strength and enhanced tribological properties, aluminium alloy composite materials are recognized globally after for highly scientific applications. Al7075 hybrid composi...te was created by using the sand mould process in an electric resistance furnace to reinforce aluminium oxide (Al_2O_3) and boron carbide (B_4C) particles. In this study, the mechanical behaviour of hybrid composites made of Al7075, Al_2O_3, and B_4C with stable Al_2O_3 contents of 2% and variable B_4C weight percentages of 2% to 6% was examined. In both pure and cast specimens, the mechanical characteristics, such as tensile and compressive strength, hardness, and microstructure analysis, were assessed. In this study, the mechanical characteristics of the hybrid composites made from Al7075 alloy were experimentally studied and validated using the ASTM standard and FEA. The results showed that when hard ceramic particles (Al_2O_3/B_4C) were added to a matrix alloy (Al7075), mechanical characteristics such as compressive strength and hardness improved while tensile strength was reduced. The static structural tensile test was successfully simulated in ANSYS. It was observed that both FEA results and analytical results were correlated.続きを見る
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