Abstract
In this research, electrical conductivity, thermal conductivity and mechanical properties of the Al-TiC composites which were sintered via microwave-assisted process were investigated. The specimens were sintered for 3, 5 and 8 minutes. The results have shown that the sample which contains 4 vol. % TiC and was sintered for 8 minutes, has the highest electrical and thermal conductivities among the other obtained ones. Besides that, the sample which contains 8 vol. % TiC and was sintered for 3 minutes, has dedicated the highest hardness and density to itself. Scanning electron microscopy (SEM) micrographs have illustrated that by increasing the amount of TiC up to 12 vol. %, the agglomeration of particles occurs. The X-ray diffraction (XRD) investigations have shown that due to the short duration of the sintering process in the microwave method, there is no trace of TiO2 and Al4C3 as pernicious phases. According to the obtained results, it becomes clear that increasing the amount of TiC powder leads to the reduction of electrical and thermal properties of the samples and increasing the sintering duration, leads to the increase of the mentioned properties.
Highlights
Nowadays, metal matrix composites (MMCs) have caught so many attentions due to their unique properties including high specific modulus, high yield stress, wear resistance and good creep and fatigue properties
Due to the supreme features of Al, including low density, proper strength, high thermal and electrical conductivities, good strength and hardness, it can improve the final properties of composites if it be located as the matrix phase
Aluminum alloys have been studied from 1920s and various industries take them into great consideration[3]
Summary
Metal matrix composites (MMCs) have caught so many attentions due to their unique properties including high specific modulus, high yield stress, wear resistance and good creep and fatigue properties. Due to the supreme features of Al, including low density, proper strength, high thermal and electrical conductivities, good strength and hardness, it can improve the final properties of composites if it be located as the matrix phase. The aluminum-matrix composites which are reinforced with ceramic particles can be appropriate solution for electronic packaging and thermal management applications due to high thermal conductivity, compatible CTEs and light weight[5]. According to the best of the author’s knowledge, no report has been published so far which investigates the thermal and electrical conductivities of the Al-TiC composite fabricated through microwave-assisted sintering method. It’s noteworthy that experimental design was carried out via Minitab 14 software
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