Abstract :

In this study, reduced graphene oxide (rGO) reinforced composites with aluminium matrix were fabricated by using powder metallurgy method by current assisted sintering (ECAS). The average grain size of aluminium used in the produced samples is 20 microns and composite materials were obtained by means of 2 to 5 layers of reduced graphene oxides. For this purpose, pure aluminium, 3%, 8% and 16% rGO doped composite materials were produced by ECAS method under 2000A/14 min conditions. Scanning electron microscopy (SEM) and X-ray diffraction analysis (XRD) techniques were used for the characterisation of the composites. Corrosion tests were also carried out to determine the electrochemical behaviour of the composites. Aluminium matrix composite structures with homogeneous distribution were obtained with increasing rGO reinforcement. The presence of rGO phase was also confirmed by XRD analysis. As a result of electro chemical tests, it was determined that corrosion resistance increased with increasing rGO reinforcement. It was revealed that the material with the highest corrosion resistance was obtained with aluminium matrix composite material containing 16% rGO. However, the highest hardness value in composite materials was found in the composite material containing 3% rGO, while the optimum result in terms of wear resistance and friction coefficient was reached in the composite material with the lowest graphene oxide content (3% rGO).

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