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Parthiban, A.
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Publications (6/6 displayed)
- 2024Investigate the Mechanical properties of Al7075-MoS<sub>2</sub> Composite via Powder Metallurgy
- 2023Analysis of MRR, Thrust Force, and Torque in Drilling Al/BN/Al2O3 Composites using Hybrid Grey–Taguchi Technique
- 2022Investigation of Wear Behaviour and Mechanical Properties of Titanium Diboride Reinforced AMMC Compositescitations
- 2021[Retracted] Optimization of Reinforced Aluminium Scraps from the Automobile Bumpers with Nickel and Magnesium Oxide in Stir Castingcitations
- 2021[Retracted] Improving the Mechanical Properties of Natural Fiber Composites of Hemp Fiber with Ramie and Banana Fiber through Compression Molding Methodcitations
- 2021[Retracted] Parameters of Porosity and Compressive Strength-Based Optimization on Reinforced Aluminium from the Recycled Waste Automobile Framescitations
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article
Investigate the Mechanical properties of Al7075-MoS<sub>2</sub> Composite via Powder Metallurgy
Abstract
<jats:p>Al7075 is a material that is both lightweight and has a high thermal conductivity. Aluminum is one of the best materials available, and it also happens to be one of the least expensive. This study examines the hardness, tensile strength, compressive strength, metallurgical characteristics, tribological behavior, impact of wear test parameters, and corrosion resistance of Al7075 hybrid composites reinforced with hard reinforcement MoS2. The powder metallurgy technique is used to create the Al7075 hybrid composites. Molybdenum disulfide served as a soft reinforcement to boost the corrosion resistance of the Al7075 hybrid composites and to give higher wear resistance with a reduced Coefficient of Friction. Al7075 hybrid composites contain 2%, 4%, 6%, and 8% weight of molybdenum disulfide. The scanning electron microscope is utilized to obtain SEM images in order to validate the homogeneous distribution of MoS2 within the aluminum 7075 matrix alloy. It is proof of a composite devoid of flaws and demonstrates the excellence of its fabrication.</jats:p>