Mechanical and Wear Behaviour Analysis of Graphene Reinforced Aluminum Alloy 7010 Metal Matrix Composite
DOI:
https://doi.org/10.18311/jmmf/2023/33361Keywords:
Metal matrix composite, SEM, EDS, Wear rateAbstract
Due to its superior mechanical and thermal properties, graphene has shown a viable approach as a better material for composites. In this work, the properties of graphene-reinforced aluminium alloy 7010 MMCs at weights of 1, 2, and 3 per cent are investigated. The existence and dispersion of graphene particles in the Al7010 matrix materials were confirmed by analyses of the MMC conducted using a Scanning Electron Microscope (SEM) and Energy Dispersive Spectroscopy (EDS). The tensile strength, yield strength, and hardness of MMCs were examined and evaluated experimentally. By using 3 weight per cent graphene in aluminium 7010 alloys, the tensile and hardness of MMCs were enhanced from 20 to 25 per cent. With the inclusion of reinforcement in the matrix, the percentage of elongation decreased. The pin-on-disc machine has been used to conduct wear tests under various loads and speeds. After graphene was added to Al7010, it was seen that the composite’s tribological behaviour has improved.
Downloads
Metrics
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
References
Khanna, Virat, Vanish Kumar, and Suneev Anil Bansal. (2021): “Mechanical properties of aluminium-graphene/ carbon nanotubes (CNTs) metal matrix composites: Advancement, opportunities and perspective.” Materials Research Bulletin 138 (2021): 111224.
Sahoo, Baidehish, et al. (2017): “Surface modification of aluminium by graphene impregnation.” Materials & Design 116 (2017): 51-64.
Niteesh Kumar, S. J., et al. (2017): “Mechanical properties of aluminium-graphene composite synthesized by powder metallurgy and hot extrusion.” Transactions of the Indian Institute of Metals 70.3 (2017): 605-613.
Liu, Jinghang, et al. (2016): “Graphene oxide and graphene nanosheet reinforced aluminium matrix composites: Powder synthesis and prepared composite characteristics.” Materials & design 94 (2016): 87-94.
Kumar, P. Lava, et al. (2022): “Recent advances in aluminium matrix composites reinforced with graphene-based nanomaterial: A critical review.” Progress in Materials Science (2022): 100948.
ªenel, Mahmut Can, Mevlüt Gürbüz, and Erdem Koç. (2018): “Mechanical and tribological behaviours of aluminium matrix composites reinforced by graphene nanoplatelets.” Materials Science and Technology 34.16 (2018): 1980-1989.
Natrayan, L., et al. (2019): “Effect of graphene reinforcement on mechanical and microstructurebehaviour of AA8030/graphene composites fabricated by stir casting technique.” AIP conference proceedings. Vol. 2166. No. 1. AIP Publishing LLC.
Ali, Z., Muthuraman, V., Rathnakumar, P., Gurusamy, P. and Nagaral, M. (2020): Investigation on the tribological properties of copper alloy reinforced with Gr/Zro2 particulates by stir casting route. Materials Today: Proceedings, 33, 3449-3453.
Ali, Z., Umar, M. D., Huq, S. M., Chowdary, M. S., Irfan, M. and Ashfaqwali, M. (2019): Characterization of aluminium-7075 reinforced with boron carbide (B4C) synthesized by stir casting. International Journal of Engineering Research & Technology, 8(6).
Shaisundaram, V. S., Saravanakumar, S., Balambica, V., Sendil Kumar, D., Chandrasekaran, M., Muraliraja, R., and Asres, Y. (2022): Effects of Thermal Barrier Coating Using Various Dosing Levels of Aluminium Oxide Nanoadditive Fuel on Diesel in Compressed Ignition Engine. Journal of Nanomaterials, 2022.
Muraliraja, R., Elansezhian, R. and Patterson, K. (2014): Optimization of reducing agent and key parameters effect on the efficiency of electroless ni-p plating by Taguchi method. Procedia Materials Science, 5, 2478- 2486.
Li, Min, et al. (2018): “Microstructure evolution and properties of graphene nanoplatelets reinforced aluminum matrix composites.” Materials Characterization 140 : 172-178.