Abstract
This study presents a novel approach to enhancing the properties of the AA5083 alloy by incorporating a high entropy alloy (HEA), specifically AlCrCuFeNi, through mechanical alloying. The Al/HEA composites were thoroughly characterized in terms of powder morphology, microstructure, fracture and wear surface morphology, phase composition, and oxidation behavior using XRD, SEM-EDS, and TGA. The impact of HEA, both with and without B4C reinforcement, on the hardness, density, tensile strength, and wear properties of the AA5083 matrix composites was comprehensively evaluated. The findings revealed that the AA5083 alloy exhibited a baseline hardness of 74.7 HB and a tensile strength of 174.1 MPa. However, with the addition of HEA + B4C, these properties were markedly enhanced, with the hardness increasing to 150.1 HB (a 100 % increase) and tensile strength to 247.1 MPa (a 50 % increase). Furthermore, the wear resistance of the composite experienced a substantial improvement, with a nearly six-fold increase due to the HEA + B4C reinforcement.
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