Publication Type : Journal Article
Source : Transactions on Maritime Science Toms, 2022
Url : https://www.webofscience.com/wos/woscc/full-record/WOS:000906459200014
Campus : Coimbatore
School : School of Engineering
Department : Mechanical Engineering
Year : 2022
Abstract : Friction stir processing (FSP) is a solid-state and effective process for surface modification of aluminium alloys. In this study the AA5052 alloy, widely used in marine applications, has been subjected to FSP. The FSP trials have been carried out by altering the FSP process parameters (tool rotation speed, tool traverse speed, and shoulder diameter). The friction stir processed specimens have been characterised / tested for microstructure, microhardness, sliding wear, immersion corrosion, and electrochemical corrosion. The hybrid polynomial - radial basis function-based models have been developed to determine the relationship between the process parameters and the evaluated properties. Furthermore, the optimum parameters for obtaining high hardness, wear resistance, and corrosion resistance have been determined. Microstructure evaluation in the friction stir processed specimens has shown refinement and uniform dispersion of beta particles throughout the alpha-Al matrix. The results show that the improvement in properties is a result of the homogeneous dispersion of secondary 6 phase particles in the matrix. Friction stir processing of AA5052 alloy has improved hardness by similar to 14.5%, wear resistance by similar to 83%, and corrosion resistance similar to 87%. The optimum process window for friction stir processing of AA5052 alloy is tool rotation speed between 500 rpm and 900 rpm, tool traverse speed between 10 mm/min and 30 mm/min, and tool shoulder diameter of 18 mm and 21 mm.
Cite this Research Publication : Kumar, BGY (Kumar, B. G. Yashwanth) ; Kumar, RL (Kumar, R. Lokesh) ; Ramalingam, VV (Ramalingam, Vaira Vignesh) ; Viswanath, K (Viswanath, Kaasi) ; Harikeshava, R (Harikeshava, R.) ; Padmanaban, R (Padmanaban, R.) "Corrosion and Tribological Characteristics of Friction Stir Processed Aluminium Alloy AA5052", Transactions on Maritime Science Toms, 2022