Abstract
In this work, SiC and Cu particles were utilized to enhance the thermal and mechanical properties of Al matrix composites. The ball-milling and cold-compact methods were applied to prepare Al matrix composites, and the uniform distribution of SiC and Cu particles in the composite confirms the validity of our preparation method. After characterizing the thermal conductivity and the compressibility of the prepared composites, results show that small particles have a higher potential to improve compressibility than large particles, which is attributed to the size effect of elastic modulus. The addition of SiC to the Al matrix will improve the compressibility behavior of Al matrix composites, and the compressibility can be enhanced by 100% when SiC content is increased from 0 to 30%. However, the addition of SiC particles has a negative effect on thermal conductivity because of the low thermal conductivity of SiC particles. The addition of Cu particles to Al-SiC MMCs could further slightly improve the compressibility behavior of Al-SiC/Cu MMCs, while the thermal conductivity could be enhanced by about 100% when the Cu content was increased from 0 to 30%. To meet the need for low density and high thermal conductivity in applications, it is more desirable to enhance the specific thermal conductivity by enlarging the preparation pressure and/or sintering temperature. This work is expected to supply some information for preparing Al matrix composites with low density but high thermal conductivity and high compressibility.
Highlights
Compared with conventional materials, metal matrix composites (MMCs) have higher specific strength, specific modulus, and light weight, among other advantages
This work is expected to supply some information for preparing Al matrix composites with low density but high thermal conductivity and high compressibility
In addition to thermal conductivity, the compressibility of MMCs is an important property when they are used in the aircraft, military, aerospace and automotive industries [31], yet there is still a scarcity of works focusing on the influence of reinforcements on the compressibility of MMCs [1,32]
Summary
Metal matrix composites (MMCs) have higher specific strength, specific modulus, and light weight, among other advantages. In addition to thermal conductivity, the compressibility of MMCs is an important property when they are used in the aircraft, military, aerospace and automotive industries [31], yet there is still a scarcity of works focusing on the influence of reinforcements on the compressibility of MMCs [1,32]. High-energy ball milling was used to prepare the Al MMC powder, and the Al MMC powder was pressed into MMCs by cold compaction, which was able to produce the widest range of powder metallurgy engineering materials for studying the compressibility of the Al MMCs. The hot-wire method was used to measure the thermal conductivity of the Al MMCs in order to study the effect of SiC and Cu additions on thermal conductivity. Methods to increase the specific thermal conductivity of Al MMCs are proposed
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