H. A. EL-Fattah
Mining and Pet. Dept, Faculty of Engineering, Al-Azhar University, Nasr City, Egypt.
Alexandria Higher Institute of Engineering and Technology (AIET), Alexandria, 21311, Egypt.
M.A. Metwally
Egyptian Natural Gas Company (GASCO), Cairo, Egypt.
M. M. Sadawy
Mining and Pet. Dept, Faculty of Engineering, Al-Azhar University, Nasr City, Egypt.
I .G.El-Batanony
Mech.Eng.Dept.Faculty of Engineering, Al-Azhar University, Nasr City, Cairo, Egypt.
Influence of SiC Content on Microstructure, Dislocation Density and Mechanical Behavior of Cu/SiC Composite
Authors
Abstract
The present investigation has examined the impact of micro-SiC on microstructure, dislocation and mechanical behavior of Cu/SiC composite. The micro-composite samples have been fabricated under a constant pressure (480 MPa) and sintered temperature (860oC) for 2 h. The sintering process was
performed under argon gas. The microstructure examination was conducted using SEM/EDS and XRD diffraction. The SiC contents were 0, 5, 10,15,20,25 and 30 volume fraction. The outcomes showed that the density was significantly decreased with an increase of silicon carbide content. The relative densities of Cu and Cu/SiC composites was ranged from 91.24% to 83.56% for pure Cu and Cu/30 vol%SiC composites. The copper crystallite size was reduced with growing SiC content while the hardness, ultimate and yield compressive strength increased with increment of SiC volume fraction to 20% vol. The values of hardness, ultimate and yield compressive strength increased to 231 HV,343 and 176 N/mm2 , respectively for the composite sample containing 20% SiC particles with a percentage increase of 75%,26.6% and 57.2% compared with pure Cu.