Composite materials consisting of pure aluminum matrix reinforced with different amounts of graphite particles are successfully fabricated by mechanical ball milling and spark plasma sintering (SPS) processes. The shrinkage rates of the composite powders vary with the amount of graphite particles and the lowest shrinkage value is observed for the composite with the highest amount of graphite particles. The current slopes of time increase with increase in the amount of graphite particles whereas the current slopes of temperature show the opposite trend. The highest thermal conductivity is achieved for the composite with the least amount of graphite particles. Therefore, the thermal properties of the composite materials can be controlled by controlling the amount of the graphite particles during the SPS process.

Citations

Citations to this article as recorded by  

• Sintering Behavior and Thermal Properties of Cu-Graphite Materials by a Spark Plasma Sintering Method
  Min-hyeok Yang, Bum-soon Park, Hyoung-seok Moon, Jae-cheol Park, Hyun-kuk Park
  Korean Journal of Metals and Materials.2024; 62(6): 411.     CrossRef
• Effect of processing parameters on the microstructural and mechanical properties of aluminum–carbon nanotube composites produced by spark plasma sintering
  B. Sadeghi, M. Shamanian, P. Cavaliere, F. Ashrafizadeh
  International Journal of Materials Research.2018; 109(10): 900.     CrossRef