Evaluation of tribo-mechanical measurements and thermal expansion of Cu-based nanocomposites reinforced by high strength hybrid ceramics
Mai Z. Zaki, M. M. El-Zaidia, H. M. Abomostafa, Mohammed A. Taha

TL;DR
This study improves copper's mechanical and thermal properties by adding ceramics and graphene, while keeping its electrical conductivity intact.
Contribution
A novel Cu-based nanocomposite with hybrid ceramic reinforcements is developed to enhance mechanical and thermal properties.
Findings
The sample with 8 vol. % SiC and 0.8 vol. % graphene showed significant improvements in microhardness, strength, and modulus.
The coefficient of thermal expansion and wear rate decreased by up to 50.2% and 76.5% with increased hybrid reinforcement.
Adding reinforcements reduced the relative density and electrical conductivity of the Cu matrix.
Abstract
It is known that Copper’s (Cu) electrical conductivity makes it a desirable material for use in industry. Due to poor properties such as hardness, thermal expansion, and corrosion resistance, its applications are limited. This manuscript solves these problems while maintaining no breakdown in electrical conductivity. In this study, high-strength ceramics (SiC nanoparticles and graphene nanosheets) were used as reinforcements in the manufacture of Cu-based hybrid nanocomposites using powder metallurgy technique. X-ray diffraction analysis (XRD) was used to investigate phase composition and crystal size of the milled powders. Transmission electron microscopy (TEM) and field emission scanning electron microscopy (FESEM), respectively examined the microstructure of the prepared powder powders and sintered nanocomposites. Then, various properties of the sintered samples are measured,…
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Taxonomy
TopicsNeural and Behavioral Psychology Studies · Action Observation and Synchronization · Spatial Neglect and Hemispheric Dysfunction
