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Abstract In the present study, aluminum matrix was reinforced with SiC and TiO2 powders to synthesize Al–SiC–TiO2 hybrid composites by using a powder metallurgy route. The influence of variation in… Click to show full abstract
Abstract In the present study, aluminum matrix was reinforced with SiC and TiO2 powders to synthesize Al–SiC–TiO2 hybrid composites by using a powder metallurgy route. The influence of variation in TiO2 content is thoroughly evaluated over the microstructure and mechanical properties. The uniform distribution and growth in the interfacial bonding between the matrix phase and reinforcement particles were confirmed from the overall scanning electron micrographs. Further, the measured hardness and density values significantly increased with the increase in TiO2 content. In addition to that, the compressive strength had increased up to 5 wt.% of TiO2. However, at higher content of TiO2, a decreasing trend is found due to the excess cluster formation.
Journal Title: International Journal of Materials Research
Year Published: 2023
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