In the present paper, powder metallurgy (P/M) technique was employed to create copper matrix composites reinforced with Graphite (Gr.)-Titanium Carbide (TiC) at 5, 10, and 15 wt.. Both Gr. and TiC was used in equal concentration as reinforcements. For this experiment, cylindrical specimens with approximate dimension of 30 mm in length and 10 mm in dia. were created by compacting milled powders under pressure of 540 MPa for 2 min. Green shaped cylindrical specimens were held at 900, 950, and 1000 degrees Celsius for 2 h at the maximum temperature. Composite samples were tested for hardness and compressive strength. Specimens' microscopic structures were studied with the help of a variety of analytical tools, including an Optical Microscope, SEM and EDS. In composites having copper matrix, reinforcement phase was found to be uniformly dispersed throughout the material. Compressive strength in composites was increased by about 108 at 5 wt. of Gr.-TiC reinforcement and by about 34 at 10 wt. of reinforcements (Gr.-TiC). When Gr.-TiC reinforcement was added to a copper matrix at a weight percentage of 15 wt., the compressive strength significantly decreased. The wear property of the produced composites was enhanced by including Gr.-TiC reinforcement into the copper matrix.
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