[1] Shubham Verma, Joy P. Misra (2021). “Experimental investigation on friction stir welding of dissimilar aluminium alloys”. Sage Journals, Vol. 235, Issue 5, pp. 1545-1554.
[2] Kishan Fuse, Vishvesh Badheka (2021). “Effect of shoulder diameter on bobbin tool friction stir welding of AA 6061-T6 alloy”. Materials Today: Proceeding (2021).
[3] Mostafa M. El-Sayed, A.Y. Shah, M.Abd-Rabou, Mahmoud G. ElSherbiny (2021). “Welding and processing of metallic materials by using friction stir technique: A review”. Journal of Advanced Joining Process, Vol. 3, June 2021.
[4] W. Al-Wajidi (2020). “Analysis of friction stir welding process: sustainability and optimization”. The University of Guelph, Guelph, Ontario, Canada, 2020.
[5] Mohammad Syahid Mohd Isa, Kaveh Moghadasi, Mohammad Ashraf Ariffin, Sufian Raja, Mohd Ridha bin Muhamad, Farazila Yusof, Mohd Fadzil Jamaludin, Nukman bin Yusoff, Mohd Sayuti bin Ab Karim (2021). “Recent research progress in friction stir welding of aluminium and copper dissimilar joint: a review”. Journal of materials research and technology, Vol. 15, November-December 2021, pp. 2735-2780.
[6] V. Hariharan, P.V. Elumalai, M. Nambiraj, J. Jayakar, M. Parthasarathy, V. Venkata Kamesh (2021). “Experimental investigation of friction stir welding on aluminium AA6063”. Materialstoday Processing, Vol. 47, part 19, pp. 6830-6834.
[7] Andrade, A.C. (2009). “Development of the Bobbin-Tool for Friction Stir Welding Characterization and analysis of aluminum alloy processed the development Experimental Procedure”. pp. 1–8.
[8] Thomas, W.M., Wiesner, C.S., Marks, D. J., Staines, D. G. (2009). “Conventional and bobbin friction stir welding of 12% chromium alloy steel using composite refractory tool materials”. Science and Technology of Welding and Joining, Vol. 14, No. 3, pp. 247–253.