Abstract
In the current exploration, the impact of the 100 to 125 micron size addition of silicon carbide (SiC) on the mechanical performance of Al6061 alloy has been studied. The Al6061 alloy dispersed with 6, 9, and 12 wt.% of SiC particles were synthesized by a two-step stir cast route. Two-step addition of the preheated particles into the melt helps avoid the agglomeration of the particles, which further contributes to enhancing the properties of composites. The orchestrated composites were exposed to microstructural examines and mechanical properties evaluation. Microstructural portrayals of acquired examples were completed by SEM microscopy, EDS, and XRD patterns. The event of SiC particles were affirmed by the XRD patterns. The density of the Al6061-SiC composites was increased with the addition of high-density silicon carbide particles. The hardness, ultimate, and yield qualities of metal composites have been improved with the increase in the content of SiC support. The ductility of SiC reinforced composites decreased with hard ceramic particles' incorporation in the Al matrix alloy. Various fracture mechanisms were observed in the Al6061-SiC composites using SEM.
Highlights
Metal matrix composites (MMCs) with aluminium (Al) as the matrix are used for light weight structural applications and electronic enclosures
This improved wettability of the silicon carbide (SiC) in the matrix will further help in enhancing the properties of Al6061 alloy composites [19]
The produced composites (Al6061-6, 9, 12 weight percentages of SiC) are effectively synthesized via stir casting with two-stage reinforcement additions
Summary
Metal matrix composites (MMCs) with aluminium (Al) as the matrix are used for light weight structural applications and electronic enclosures. The composites with 6, 9, and 12 weight % of SiC particles reinforced were developed and evaluated for density, ultimate tensile, and yield strength; further percentage elongation and fractographic studies were carried out. Aluminum 6061 alloy (Fenfee Metallurgical Pvt. Ltd., Bangalore) is preferred as a matrix due to its greater casting properties, strength, formability, heat treatment nature, good corrosion resistance, machinability, and wide applications in several sectors, while SiC particles with a size of. For XRD studies, Al6061 with 6 and 12 weight percentages of SiC composites were selected For this purpose, prepared composite samples are cut to 15 mm diameter and 2 mm height in size specimens, and the same polishing method is carried as in the case of SEM. Fracture surfaces are presented for microstructural studies using SEM to understand the fracture mechanism
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