Graphene Reinforced Copper Matrix Nano-Composite for Resistance Seam Welding Electrode
Mansour, N., Yehia, H., Ali, A. (2021). Graphene Reinforced Copper Matrix Nano-Composite for Resistance Seam Welding Electrode. EKB Journal Management System, 109(1), 25-34. doi: 10.21608/tims.2021.191623
N. S. S. Mansour; H. M. Yehia; A. I. Ali. "Graphene Reinforced Copper Matrix Nano-Composite for Resistance Seam Welding Electrode". EKB Journal Management System, 109, 1, 2021, 25-34. doi: 10.21608/tims.2021.191623
Mansour, N., Yehia, H., Ali, A. (2021). 'Graphene Reinforced Copper Matrix Nano-Composite for Resistance Seam Welding Electrode', EKB Journal Management System, 109(1), pp. 25-34. doi: 10.21608/tims.2021.191623
Mansour, N., Yehia, H., Ali, A. Graphene Reinforced Copper Matrix Nano-Composite for Resistance Seam Welding Electrode. EKB Journal Management System, 2021; 109(1): 25-34. doi: 10.21608/tims.2021.191623

Graphene Reinforced Copper Matrix Nano-Composite for Resistance Seam Welding Electrode

The Bulletin Tabbin Institute for Metallurgical Studies (TIMS)
Volume 109, Issue 1, August 2021, Page 25-34  XML PDF (740.46 K)
Document Type: Original research papers
DOI: 10.21608/tims.2021.191623
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Authors
N. S. S. Mansour1; H. M. Yehia email 2; A. I. Ali* 2
1Alexandria Technology Institute, Alexandria, Egypt .
2Faculty of Industrial Education, Helwan University, Egypt, Sray El-Quba, 11281 Cairo, Egypt.
Abstract
Five samples contain 0, 1.2, 1.4, 1.6, and 1.8 wt. % graphene (GNs) were prepared by the powder metallurgy technique. The 20 (WC-TiC-Co) wt. %, 5wt. %Ni, and the different weight percentages of the graphene (GNs) were coated by copper by the electroless coating process. The effect of the GNs on the density, hardness, compressive strength, and thermal expansion was studied. The microstructure revealed an excellent distribution for the different reinforcements and good adhesion between them. The results indicate that the hardness and the compressive resistance were significantly improved. These improvements were attributed to the remarkable mechanical and physical properties of the GNs. The thermal expansion was decreased by increasing the GNs content.
Keywords
Copper matrix; Hardness; Graphene; Copper electroless; Compression strength
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